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{{short description|Type of trading using highly sophisticated algorithms and very short-term investment horizons}}
{{globalize|date = October 2020}}
{{Financial market participants}} {{Financial market participants}}
'''High-frequency trading''' ('''HFT''') is a type of ] in ] characterized by high speeds, high turnover rates, and high order-to-trade ratios that leverages high-frequency financial data and electronic trading tools.<ref name="HFTpracticalguide2013">{{Citation |last=Aldridge |first=Irene |title=High-Frequency Trading: A Practical Guide to Algorithmic Strategies and Trading Systems, 2nd edition |publisher=Wiley |year=2013 |isbn=978-1-118-34350-0}}</ref><ref name="ssrn.com">Lin, Tom C. W. "The New Financial Industry" (March 30, 2014). 65 Alabama Law Review 567 (2014); Temple University Legal Studies Research Paper No. 2014-11; {{ssrn|2417988}}.</ref><ref>*{{cite web|url=https://www.forbes.com/sites/billconerly/2014/04/14/high-frequency-trading-explained-simply/|title=High Frequency Trading Explained Simply|first=Bill|last=Conerly|website=]|access-date=27 June 2016}}
'''High-frequency trading''' (HFT) is a primary form of ] in finance.<ref>The New Financial Industry, Alabama Law Review, available at: http://ssrn.com/abstract=2417988</ref> Specifically, it is the use of sophisticated technological tools and computer algorithms to rapidly trade ].<ref name="iosco"/><ref name="whatis">{{cite news |author=Irene Aldridge |title=What is High Frequency Trading, After All? |url=http://www.huffingtonpost.com/irene-aldridge/what-is-high-frequency-tr_b_639203.html |publisher=] |date=July 8, 2010 |accessdate=August 15, 2010}}</ref><ref name="ucm">{{Citation|title=Advances in High Frequency Strategies|url=http://home.comcast.net/~lemavia/HFT_thesis.htm|work=Complutense University Doctoral Thesis (published)|date=December 2011|accessdate=2012-01-08}}</ref> HFT uses proprietary trading strategies carried out by computers to move in and out of positions in seconds or fractions of a second. It is estimated that as of 2009, HFT accounted for 60-73% of all US equity trading volume, with that number falling to approximately 50% in 2012.<ref name="advtrade">Rob Iati, , ''AdvancedTrading.com'', July 10, 2009</ref><ref>, The New York Times, December 20, 2012</ref>
*{{cite web|url=http://www.investopedia.com/terms/h/high-frequency-trading.asp|title=High-Frequency Trading (HFT) Definition|website=Investopedia|date=23 July 2009|access-date=27 June 2016}}
High-frequency traders move in and out of short-term positions at high volumes aiming to capture sometimes a fraction of a cent in profit on every trade.<ref name="whatis" /> HFT firms do not consume significant amounts of capital, accumulate positions or hold their portfolios overnight.<ref name="secletter1" /> As a result, HFT has a potential ] (a measure of risk and reward) tens of times higher than traditional ] strategies.<ref name="howprof">{{cite news|title=How profitable is high frequency trading|url=http://www.huffingtonpost.com/irene-aldridge/how-profitable-are-high-f_b_659466.html |publisher=] | first=Irene|last=Aldridge|date=July 26, 2010}}</ref> High-frequency traders typically compete against other HFTs, rather than long-term investors.<ref name="secletter1">{{cite news| title=Trade Worx / SEC letters |url=http://sec.gov/comments/s7-02-10/s70210-129.pdf |date=April 21, 2010 |accessdate=September 10, 2010}}</ref><ref name="jpm">{{Citation|title=The Microstructure of the Flash Crash: Flow Toxicity, Liquidity Crashes and the Probability of Informed Trading|url= http://papers.ssrn.com/sol3/papers.cfm?abstract_id=1695041|work=]|date=October 2010|accessdate=2012-01-08}}</ref><ref name="vwhft">{{Citation|last=Vuorenmaa|first=Tommi|last2=Wang|first2=Liang|title=An Agent-Based Model of the Flash Crash of May 6, 2010, with Policy Implications|url= http://papers.ssrn.com/sol3/papers.cfm?abstract_id=2336772|work=VALO Research and University of Helsinki|date=October 2013|accessdate=2014-02-26}}</ref> HFT firms make up the low margins with incredible high volumes of tradings, frequently numbering in the millions.
*{{cite web|url=http://www.wikinvest.com/High-Frequency_Trading_(HFT)|title=High-Frequency Trading (HFT)|access-date=27 June 2016|archive-date=16 June 2016|archive-url=https://web.archive.org/web/20160616160058/http://www.wikinvest.com/High-Frequency_Trading_(HFT)|url-status=dead}}
It has been argued that a core incentive in much of the technological development behind high-frequency trading is essentially ], in which the varying delays in the propagation of orders is taken advantage of by those who have earlier access to information.<ref>{{cite news |first=Sam |last=Mamudi |publisher=Barron's Stocks To Watch |title=Charlie Munger: HFT is Legalized Front-Running |url=http://blogs.barrons.com/stockstowatchtoday/2013/05/03/charlie-munger-hft-is-legalized-front-running/ |date=May 3, 2013 |accessdate=February 14, 2015}}</ref><ref>{{cite news |last=Kroft |first=Steve |date=March 30, 2014 |title=Is the U.S. stock market rigged? |url=http://www.cbsnews.com/news/is-the-us-stock-market-rigged/ |newspaper=CBS News |accessdate=November 2, 2014}}</ref>
*</ref> While there is no single definition of HFT, among its key attributes are highly sophisticated algorithms, co-location, and very short-term investment horizons in trading ].<ref>Lemke and Lins, ''"Soft Dollars and Other Trading Activities,"'' §&nbsp;2:31 (Thomson West, 2016–2017 ed.).</ref><ref name="iosco" /><ref name="whatis">{{cite news |last=Aldridge |first=Irene| title=What is High Frequency Trading, After All? |url=http://www.huffingtonpost.com/irene-aldridge/what-is-high-frequency-tr_b_639203.html |publisher=] |date=July 8, 2010 |access-date=August 15, 2010}}</ref><ref name="ucm">{{Citation|title=Advances in High Frequency Strategies|url=http://home.comcast.net/~lemavia/HFT_thesis.htm|archive-url=https://web.archive.org/web/20150930224636/http://home.comcast.net/~lemavia/HFT_thesis.htm|url-status=dead|archive-date=2015-09-30|work=Complutense University Doctoral Thesis (published)|date=December 2011|access-date=2012-01-08}}</ref> HFT uses proprietary trading strategies carried out by computers to move in and out of ] in seconds or fractions of a second.<ref>{{cite web|url=https://www.nytimes.com/2009/07/24/business/24trading.html|title=Stock Traders Find Speed Pays, in Milliseconds|date=24 July 2009|work=The New York Times|access-date=27 June 2016}}</ref>


In 2016, HFT on average initiated 10–40% of trading volume in equities, and 10–15% of volume in foreign exchange and commodities.<ref>Aldridge, I., Krawciw, S., 2017. Real-Time Risk: What Investors Should Know About Fintech, High-Frequency Trading and Flash Crashes. Hoboken: Wiley. {{ISBN|978-1-119-31896-5}}.</ref> High-frequency traders move in and out of short-term positions at high volumes and high speeds aiming to capture sometimes a fraction of a cent in profit on every trade.<ref name="whatis" /> HFT firms do not consume significant amounts of capital, accumulate positions or hold their portfolios overnight.<ref name="secletter1" /> As a result, HFT has a potential ] (a measure of reward to risk) tens of times higher than traditional ] strategies.<ref name="howprof">{{cite news|title=How profitable is high frequency trading|url=http://www.huffingtonpost.com/irene-aldridge/how-profitable-are-high-f_b_659466.html |publisher=] | first=Irene|last=Aldridge|date=July 26, 2010}}</ref> High-frequency traders typically compete against other HFTs, rather than long-term investors.<ref name="secletter1">{{cite news| title=Trade Worx / SEC letters |url=https://www.sec.gov/comments/s7-02-10/s70210-129.pdf |date=April 21, 2010 |access-date=September 10, 2010}}</ref><ref name="jpm">{{Citation|title=The Microstructure of the 'Flash Crash': Flow Toxicity, Liquidity Crashes and the Probability of Informed Trading|ssrn= 1695041| author1= Easley, David |author2=Marcos Lopez de Prado |author3=Maureen O'Hara| work=]|date=October 2010}}</ref><ref name="vwhft">{{Citation|last1=Vuorenmaa|first1=Tommi|last2=Wang|first2=Liang|title=An Agent-Based Model of the Flash Crash of May 6, 2010, with Policy Implications|ssrn= 2336772|work=VALO Research and University of Helsinki|date=October 2013}}</ref> HFT firms make up the low margins with incredibly high volumes of trades, frequently numbering in the millions.
A substantial body of research argues that HFT and electronic trading pose new types of challenges to the financial system.<ref name="iosco">{{Citation|title=Regulatory Issues Raised by the Impact of Technological Changes on Market Integrity and Efficiency|url= http://www.iosco.org/library/pubdocs/pdf/IOSCOPD354.pdf|work=]|date=July 2011|accessdate=2011-07-12}}</ref><ref name=chicagofed>{{citation |title=How to keep markets safe in the era of high-speed trading | url=http://www.chicagofed.org/digital_assets/publications/chicago_fed_letter/2012/cfloctober2012_303.pdf}}</ref> Algorithmic and high-frequency traders were both found to have contributed to volatility in the May 6, ], when high-frequency liquidity providers rapidly withdrew from the market.<ref name=iosco/><ref name=vwhft/><ref name="chicagofed"/><ref name=WSJ1 /><ref name="reutersiosco">{{cite news |author=Huw Jones |title=Ultra fast trading needs curbs -global regulators | url=http://uk.reuters.com/article/2011/07/07/regulation-trading-idUKN1E7661BX20110707 |work=] |date=July 7, 2011|accessdate=July 12, 2011}}</ref> Several European countries have proposed curtailing or banning HFT due to concerns about volatility.<ref name="guardian-2012-ban">{{cite news|url=http://www.theguardian.com/business/2012/sep/16/meps-ban-high-frequency-trading|title=Britain opposes MEPs seeking ban on high-frequency trading. UK fighting efforts to curb high-risk, volatile system, with industry lobby dominating advice given to Treasury|last=Ross|first=Alice K|coauthors=Will Fitzgibbon and Nick Mathiason|date=16 September 2012 |publisher=The Guardian|accessdate=2 January 2015}}</ref> Other complaints against HFT include the argument that some HFT firms scrape profits from investors when ]s rebalance their portfolios.<ref name=AmeryRebalancing>{{cite news|last=Amery|first=Paul|title=Know Your Enemy|url=http://www.indexuniverse.eu/europe/opinion-and-analysis/7634-know-your-enemy.html?showall=&fullart=1&start=2|accessdate=26 March 2013|newspaper=IndexUniverse.eu|date=November 11, 2010}}</ref><ref name=Petajisto>{{cite journal|last=Petajisto|first=Antti|title=The index premium and its hidden cost for index funds|journal=Journal of Empirical Finance|year=2011|volume=18|pages=271–288|doi=10.1016/j.jempfin.2010.10.002|url=http://www.petajisto.net/papers/petajisto%202011%20jef%20-%20hidden%20cost%20for%20index%20funds.pdf|accessdate=26 March 2013}}</ref><ref name=Montgomery>{{cite news|last=Rekenthaler|first=John|title=The Weighting Game, and Other Puzzles of Indexing|url=https://web.archive.org/web/20130729192302/http://www.crsp.com/images/Reprint_Feb_Mar11MornignstarConversation_color.pdf|accessdate=26 March 2013|newspaper=Morningstar Advisor|date=February–March 2011|pages=52–56 }}</ref>


A substantial body of research argues that HFT and electronic trading pose new types of challenges to the financial system.<ref name="iosco">{{Citation|title=Regulatory Issues Raised by the Impact of Technological Changes on Market Integrity and Efficiency|url= http://www.iosco.org/library/pubdocs/pdf/IOSCOPD354.pdf|work=] Technical Committee|date=July 2011|access-date=2011-07-12}}</ref><ref name=chicagofed>{{citation |title=How to keep markets safe in the era of high-speed trading | url=http://www.chicagofed.org/digital_assets/publications/chicago_fed_letter/2012/cfloctober2012_303.pdf}}</ref> Algorithmic and high-frequency traders were both found to have contributed to ] in the ], when high-frequency liquidity providers rapidly withdrew from the market.<ref name=iosco /><ref name=vwhft /><ref name="chicagofed" /><ref name=WSJ1 /><ref name="reutersiosco">{{cite news |first=Huw |last=Jones |title=Ultra fast trading needs curbs -global regulators | url=http://uk.reuters.com/article/regulation-trading-idUKN1E7661BX20110707 | archive-url=https://web.archive.org/web/20160128152958/http://uk.reuters.com/article/regulation-trading-idUKN1E7661BX20110707 | url-status=dead | archive-date=January 28, 2016 |work=] |date=July 7, 2011|access-date=July 12, 2011}}</ref> Several European countries have proposed curtailing or banning HFT due to concerns about volatility.<ref name="guardian-2012-ban">{{cite news|url=https://www.theguardian.com/business/2012/sep/16/meps-ban-high-frequency-trading|title=Britain opposes MEPs seeking ban on high-frequency trading. UK fighting efforts to curb high-risk, volatile system, with industry lobby dominating advice given to Treasury|last=Ross|first=Alice K |author2=Will Fitzgibbon |author3=Nick Mathiason|date=16 September 2012 |work=The Guardian|access-date=2 January 2015}}</ref> Other complaints against HFT include the argument that some HFT firms scrape profits from investors when ]s rebalance their portfolios.<ref name=AmeryRebalancing>{{cite news|last=Amery|first=Paul|title=Know Your Enemy|url=https://archive.today/20130412151127/http://www.indexuniverse.eu/europe/opinion-and-analysis/7634-know-your-enemy.html?showall=&fullart=1&start=2|accessdate=26 March 2013|date=November 11, 2010}}</ref><ref name="Petajisto">{{cite journal|last=Petajisto|first=Antti|title=The index premium and its hidden cost for index funds|journal=Journal of Empirical Finance|year=2011|volume=18|issue=2|pages=271–288|doi=10.1016/j.jempfin.2010.10.002|url=http://www.petajisto.net/papers/petajisto%202011%20jef%20-%20hidden%20cost%20for%20index%20funds.pdf|access-date=March 26, 2013}}</ref><ref name="Montgomery">{{cite news|last=Rekenthaler |first=John |title=The Weighting Game, and Other Puzzles of Indexing |url=http://www.crsp.com/images/Reprint_Feb_Mar11MornignstarConversation_color.pdf |access-date=March 26, 2013 |newspaper=Morningstar Advisor |date=February–March 2011 |pages=52–56 |url-status=dead |archive-url=https://web.archive.org/web/20130729192302/http://www.crsp.com/images/Reprint_Feb_Mar11MornignstarConversation_color.pdf |archive-date=July 29, 2013 }}</ref>
==History==
High-frequency trading has taken place at least since 1999, after the ] authorized electronic exchanges in 1998. At the turn of the 21st century, HFT trades had an execution time of several seconds, whereas by 2010 this had decreased to ]- and even ]s.<ref name = "patience">{{Citation|title=Patience and Finance| work=]|date= Sep 2, 2010|accessdate=Sep 10, 2010| url=http://www.bis.org/review/r100909e.pdf}}</ref> Until recently, high-frequency trading was a little-known topic outside the financial sector, with an article published by the ''New York Times'' in July 2009 being one of the first to bring the subject to the public's attention.<ref name="speedPays">{{cite news |author=CHARLES DUHIGG |title=Stock Traders Find Speed Pays, in Milliseconds|url=http://www.nytimes.com/2009/07/24/business/24trading.html |work=] |date=July 23, 2009|accessdate=Sep 10, 2010}}</ref>


== History ==
On September 2, 2013, ] became the world's first country to introduce a tax specifically targeted at HFT, charging a levy of 0.02% on equity transactions lasting less than 0.5 seconds.<ref>

{{cite news
The rapid-fire computer-based HFT developed gradually since 1983 after NASDAQ introduced a purely electronic form of trading.<ref>Aldridge, I., 2013. High-Frequency Trading: A Practical Guide to Algorithmic Strategies and Trading Systems, 2nd edition. Hoboken: Wiley. {{ISBN|978-1-118-34350-0}}</ref> At the turn of the 21st century, HFT trades had an execution time of several seconds, whereas by 2010 this had decreased to ]- and even ]s.<ref name="patience">{{Citation|title=Patience and Finance| work=]|date= Sep 2, 2010|access-date=Sep 10, 2010| url=http://www.bis.org/review/r100909e.pdf}}</ref> At that time, high-frequency trading was still a little-known topic outside the financial sector, with an article published by the ''New York Times'' in July 2009 being one of the first to bring the subject to the public's attention.<ref name="speedPays">{{cite news |first=Charles|last=Duhigg |title=Stock Traders Find Speed Pays, in Milliseconds|url=https://www.nytimes.com/2009/07/24/business/24trading.html |work=] |date=July 23, 2009|access-date=Sep 10, 2010}}</ref>

On September 2, 2013, ] became the world's first country to introduce a tax specifically targeted at HFT, charging a levy of 0.02% on equity transactions lasting less than 0.5 seconds.<ref name=Italy>{{cite news
|url= http://www.dw.de/italy-first-to-slap-tax-on-high-speed-stock-trading/a-17060424 |url= http://www.dw.de/italy-first-to-slap-tax-on-high-speed-stock-trading/a-17060424
|title= Italy first to slap tax on high speed stock trading |title= Italy first to slap tax on high speed stock trading
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|author= AFP, Reuters |author= AFP, Reuters
|date = 2013-09-02 |date = 2013-09-02
|accessdate=2013-09-03 |access-date=2013-09-03
}}</ref><ref name=Italia>{{cite news
}}
</ref><ref>
{{cite news
|url= http://www.ft.com/cms/s/0/378dcace-117e-11e3-8321-00144feabdc0.html |url= http://www.ft.com/cms/s/0/378dcace-117e-11e3-8321-00144feabdc0.html
|title= Italy introduces tax on high-speed trade and equity derivatives |title= Italy introduces tax on high-speed trade and equity derivatives
|publisher= ] |publisher= ]
|author= Philip Stafford |first= Philip |last= Stafford
|date = 2013-09-01 |date = 2013-09-01
|accessdate=2013-09-03 |access-date=2013-09-03
|url-access=registration }}</ref>
|registration=yes}}
</ref>


===Market growth=== === Market growth ===
In the early 2000s, high-frequency trading still accounted for fewer than 10% of equity orders, but this proportion was soon to begin rapid growth. According to data from the NYSE, trading volume grew by about 164% between 2005 and 2009 for which high-frequency trading might be accounted.<ref name="speedPays"/> As of the first quarter in 2009, total assets under management for hedge funds with high-frequency trading strategies were $141 billion, down about 21% from their peak before the worst of the ].<ref name="mktbeat">Geoffrey Rogow,Eric Ross , ''The Wall Street Journal'', June 19, 2009</ref> The high-frequency strategy was first made successful by ].<ref></ref> Many high-frequency firms are ] and provide liquidity to the market which lowered volatility and helped narrow ]s, making trading and investing cheaper for other market participants.<ref name="mktbeat"/> In the early 2000s, high-frequency trading still accounted for fewer than 10% of equity orders, but this proportion was soon to begin rapid growth. According to data from the NYSE, trading volume grew by about 164% between 2005 and 2009 for which high-frequency trading might be accounted.<ref name="speedPays" /> As of the first quarter in 2009, total assets under management for hedge funds with high-frequency trading strategies were $141&nbsp;billion, down about 21% from their peak before the worst of the ],<ref name="mktbeat">Rogow, Geoffrey, and Eric Ross , ''The Wall Street Journal'', June 19, 2009</ref> although most of the largest HFTs are actually LLCs owned by a small number of investors. The high-frequency strategy was first made popular by ]<ref>{{cite web|url=http://www.olsen.ch/fileadmin/Publications/Archive//hedgefuture.pdf|title=OlsenInvest Scientific Investing|access-date=27 June 2016|url-status=dead|archive-url=https://web.archive.org/web/20120225230059/http://www.olsen.ch/fileadmin/Publications/Archive//hedgefuture.pdf|archive-date=25 February 2012}}</ref> who use both HFT and quantitative aspects in their trading. Many high-frequency firms are ] and provide liquidity to the market which lowers volatility and helps narrow ]s, making trading and investing cheaper for other market participants.<ref name="mktbeat" />


===Market share=== === Market share ===
In the United States in 2009, high-frequency trading firms represented 2% of the approximately 20,000 firms operating today, but accounted for 73% of all equity orders volume.{{citation needed|date=January 2015}}<ref name="Aite Group Survey">Aite Group Survey{{dead link|date=January 2015}}</ref> The major U.S. high-frequency trading firms include Chicago Trading, ], Timber Hill, ], ], ] and ].<ref name="cutter">{{cite news |author=James E. Hollis |title=HFT: Boon? Or Impending Disaster?|url=http://www.cutterassociates.com/pdfs/cadv_2013_09.pdf|work=]|date=Sep 2013 |accessdate=July 1, 2014}}</ref> The ] estimates similar percentages for the 2010 US market share, also suggesting that in Europe HFT accounts for about 40% of equity orders volume and for Asia about 5-10%, with potential for rapid growth.<ref name = "patience"/> By value, HFT was estimated in 2010 by consultancy ''Tabb Group'' to make up 56% of equity trades in the US and 38% in Europe.<ref name="bandsaw">{{cite news |author=Jeremy Grant |title=High-frequency trading: Up against a bandsaw |url=http://www.ft.com/cms/s/0/b2373a36-b6c2-11df-b3dd-00144feabdc0.html |work=] |date=Sep 2, 2010 |accessdate=Sep 10, 2010}}</ref> In the United States in 2009, high-frequency trading firms represented 2% of the approximately 20,000 firms operating today, but accounted for 73% of all equity orders volume.{{citation needed|date=January 2015}}<ref name="Aite Group Survey">Aite Group Survey{{dead link|date=January 2015}}</ref> The major U.S. high-frequency trading firms include ], ], ], ], ] and ].<ref name="cutter">{{cite news|first=James E.|last=Hollis|title=HFT: Boon? Or Impending Disaster?|url=http://www.cutterassociates.com/cutter-advantedge/pdf.cfm?assetid=189|work=]|date=Sep 2013|access-date=June 29, 2015|archive-date=July 1, 2015|archive-url=https://web.archive.org/web/20150701180931/http://www.cutterassociates.com/cutter-advantedge/pdf.cfm?assetid=189|url-status=dead}}</ref> The ] estimates similar percentages for the 2010 UK market share, also suggesting that in Europe HFT accounts for about 40% of equity orders volume and for Asia about 5–10%, with potential for rapid growth.<ref name="patience" /> By value, HFT was estimated in 2010 by consultancy ''Tabb Group'' to make up 56% of equity trades in the US and 38% in Europe.<ref name="bandsaw">{{cite news |first=Justin |last=Grant |title=High-frequency trading: Up against a bandsaw |url=http://www.ft.com/cms/s/0/b2373a36-b6c2-11df-b3dd-00144feabdc0.html |work=] |date=Sep 2, 2010 |access-date=Sep 10, 2010}}</ref>


As HFT strategies become more widely used, it can be more difficult to deploy them profitably. According to an estimate from Frederi Viens of ], profits from HFT in the U.S. has been declining from an estimated peak of $5bn in 2009, to about $1.25bn in 2012.<ref name="timeIsMoney">{{cite news |author=Clive Cookson |title=Time is money when it comes to microwaves |url=http://www.ft.com/cms/s/2/2bf37898-b775-11e2-841e-00144feabdc0.html |work=] |date=May 12, 2013 |accessdate=May 12, 2013}}</ref> As HFT strategies become more widely used, it can be more difficult to deploy them profitably. According to an estimate from Frederi Viens of ], profits from HFT in the U.S. has been declining from an estimated peak of $5bn in 2009, to about $1.25bn in 2012.<ref name="timeIsMoney">{{cite news |first=Clive |last=Cookson |title=Time is money when it comes to microwaves |url=http://www.ft.com/cms/s/2/2bf37898-b775-11e2-841e-00144feabdc0.html |work=] |date=May 12, 2013 |access-date=May 12, 2013}}</ref>


Though the percentage of volume attributed to HFT has fallen in the ], it has remained prevalent in the ]. According to a study in 2010 by Aite Group, about a quarter of major global futures volume came from professional high-frequency traders.<ref name="Aite Group Survey"/> In 2012, according to a study by the TABB Group, HFT accounted for more than 60 percent of all futures market volume in 2012 on U.S. exchanges.<ref>{{cite news|last1=Polansek|first1=Tom|title=CFTC finalizes plan to boost oversight of fast traders: official|url=http://www.reuters.com/article/2013/08/23/us-cftc-trading-oversight-idUSBRE97M0ZH20130823|accessdate=8 July 2014|publisher=Reuters|date=23 August 2013}}</ref> Though the percentage of volume attributed to HFT has fallen in the ], it has remained prevalent in the ]. According to a study in 2010 by Aite Group, about a quarter of major global futures volume came from professional high-frequency traders.<ref name="Aite Group Survey" /> In 2012, according to a study by the TABB Group, HFT accounted for more than 60 percent of all futures market volume in 2012 on U.S. exchanges.<ref>{{cite news|last1=Polansek|first1=Tom|title=CFTC finalizes plan to boost oversight of fast traders: official|url=https://www.reuters.com/article/us-cftc-trading-oversight-idUSBRE97M0ZH20130823|access-date=8 July 2014|publisher=Reuters|date=23 August 2013}}</ref>


==Strategies== == Strategies ==
High-frequency trading is quantitative trading that is characterized by short portfolio holding periods (see Wilmott (2008)). All portfolio-allocation decisions are made by computerized quantitative models. The success of high-frequency trading strategies is largely driven by their ability to simultaneously process large volumes of information, something ordinary human traders cannot do. Specific algorithms are closely guarded by their owners and are known as "algos".<ref name="practicalguide">{{Citation |last=Aldridge |first=Irene |title=High-Frequency Trading: A Practical Guide to Algorithmic Strategies and Trading Systems |publisher=Wiley |year=2009 |isbn=978-0-470-56376-2}}</ref> Many practical algorithms are in fact quite simple arbitrages which could previously have been performed at lower frequency—competition tends to occur through who can execute them the fastest rather than who can create new breakthrough algorithms. Some examples of standard arbitrages used in HFT are listed below. High-frequency trading is ] that is characterized by short portfolio holding periods.<ref name="practicalguide">{{Citation |last=Aldridge |first=Irene |title=High-Frequency Trading: A Practical Guide to Algorithmic Strategies and Trading Systems |publisher=Wiley |year=2009 |isbn=978-0-470-56376-2}}</ref> All portfolio-allocation decisions are made by computerized quantitative models. The success of high-frequency trading strategies is largely driven by their ability to simultaneously process large volumes of information, something ordinary human traders cannot do. Specific algorithms are closely guarded by their owners. Many practical algorithms are in fact quite simple arbitrages which could previously have been performed at lower frequency—competition tends to occur through who can execute them the fastest rather than who can create new breakthrough algorithms.{{citation needed|date=September 2024}}


The common types of high-frequency trading include several types of market-making, event arbitrage, statistical arbitrage, and latency arbitrage. Most high-frequency trading strategies are not fraudulent, but instead exploit minute deviations from market equilibrium.<ref name="practicalguide" />
===Market making===

=== Market making ===
{{Main|Market maker}} {{Main|Market maker}}
According to SEC:<ref>{{cite web|title=Fast Answers – Market Maker|access-date=August 20, 2016 |url=https://www.sec.gov/answers/mktmaker.htm |publisher=U.S. Securities and Exchange Commission}}</ref>
Market making is a set of high-frequency trading strategies that involve placing a limit order to sell (or offer) or a buy limit order (or bid) in order to earn the bid-ask spread. By doing so, market makers provide counterpart to incoming market orders. Although the role of market maker was traditionally fulfilled by specialist firms, this class of strategy is now implemented by a large range of investors, thanks to wide adoption of ]. As pointed out by empirical studies<ref name="liquid" /> this renewed competition among liquidity providers causes reduced effective market spreads, and therefore reduced indirect costs for final investors.


<blockquote>A "market maker" is a firm that stands ready to buy and sell a particular stock on a regular and continuous basis at a publicly quoted price. You'll most often hear about market makers in the context of the ] or other "over the counter" (OTC) markets. Market makers that stand ready to buy and sell stocks listed on an exchange, such as the ], are called "third market makers". Many OTC stocks have more than one market-maker.
Some high-frequency trading firms use market making as their primary strategy.<ref name="secletter1" /> Automated Trading Desk, which was bought by ] in July 2007, has been an active market maker, accounting for about 6% of total volume on both the NASDAQ and the New York Stock Exchange.<ref>{{Citation |work=The Associated Press |date=July 2, 2007 |title=Citigroup to expand electronic trading capabilities by buying Automated Trading Desk |accessdate=July 4, 2007 |url=http://www.iht.com/articles/ap/2007/07/02/business/NA-FIN-COM-US-Citigroup-Automated-Trading-Desk.php |publisher=] }}</ref> Building up market making strategies typically involves precise modeling of the target ]<ref>Cartea, Á. and S. Jaimungal (2012) : Modeling Asset Prices for Algorithmic and High Frequency Trading. Available at SSRN: http://ssrn.com/abstract=1722202</ref><ref>Guilbaud, Fabien and Pham, Huyên, Optimal High Frequency Trading with Limit and Market Orders (2011). Available at SSRN: http://ssrn.com/abstract=1871969</ref> together with ] techniques.<ref>Avellaneda M. and S. Stoikov (2008): High frequency trading in a limit order book", Quantitative Finance, 8(3), 217-224</ref><ref>Cartea, Á., S. Jaimungal and J. Ricci (2011) : Buy Low Sell High : A High Frequency Trading Perspective. Available at SSRN: http://ssrn.com/abstract=1964781</ref><ref>Cartea, Á. and S. Jaimungal (2012) : Risk Metrics and Fine Tuning of High Frequency Trading Strategies. Available at SSRN: http://ssrn.com/abstract=2010417</ref><ref>Guéant, O., C.-A. Lehalle, and J. Fernandez-Tapia (2013, September). Dealing with the inventory risk: a solution to the market making problem. Mathematics and Financial Economics 4 (7), 477-507. Available at http://arxiv.org/abs/1105.3115</ref>


Market-makers generally must be ready to buy and sell at least 100 shares of a stock they make a market in. As a result, a large order from an investor may have to be filled by a number of market-makers at potentially different prices.</blockquote>
These strategies appear intimately related to the entry of new electronic venues. Academic study of Chi-X's entry into the European equity market reveals that its launch coincided with a large HFT that made markets using both the incumbent market, NYSE-Euronext, and the new market, Chi-X. The study shows that the new market provided ideal conditions for HFT market-making, low fees (i.e., rebates for quotes that led to execution) and a fast system, yet the HFT was equally active in the incumbent market to offload nonzero positions. New market entry and HFT arrival are further shown to coincide with a significant improvement in liquidity supply.<ref>The studies are available at http://papers.ssrn.com/sol3/papers.cfm?abstract_id=1624329 and http://papers.ssrn.com/sol3/papers.cfm?abstract_id=1722924</ref>


There can be a significant overlap between a "market maker" and "HFT firm". HFT firms characterize their business as "Market making" – a set of high-frequency trading strategies that involve placing a limit order to sell (or offer) or a buy limit order (or bid) in order to earn the bid-ask spread. By doing so, market makers provide a counterpart to incoming market orders. Although the role of market maker was traditionally fulfilled by specialist firms, this class of strategy is now implemented by a large range of investors, thanks to wide adoption of ]. As pointed out by empirical studies,<ref name="liquid" /> this renewed competition among liquidity providers causes reduced effective market spreads, and therefore reduced indirect costs for final investors." A crucial distinction is that true market makers don't exit the market at their discretion and are committed not to, where HFT firms are under no similar commitment.
===Ticker tape trading===
Much information happens to be unwittingly embedded in market data, such as quotes and volumes. By observing a flow of quotes, computers are capable of extracting information that has not yet crossed the news screens. Since all quote and volume information is public, such strategies are fully compliant with all the applicable laws.


Some high-frequency trading firms use market making as their primary strategy.<ref name="secletter1" /> Automated Trading Desk (ATD), which was bought by ] in July 2007, has been an active market maker, accounting for about 6% of total volume on both the NASDAQ and the New York Stock Exchange.<ref>{{Citation |agency=The Associated Press |date=July 2, 2007 |title=Citigroup to expand electronic trading capabilities by buying Automated Trading Desk |access-date=July 4, 2007 |url=http://www.iht.com/articles/ap/2007/07/02/business/NA-FIN-COM-US-Citigroup-Automated-Trading-Desk.php |work=] }}</ref> In May 2016, ] bought assets of ATD from Citigroup. Building up market making strategies typically involves precise modeling of the target ]<ref>Cartea, Á. and S. Jaimungal (2012) "Modeling Asset Prices for Algorithmic and High Frequency Trading". {{ssrn|1722202}}.</ref><ref>Guilbaud, Fabien and Pham, Huyên, "Optimal High Frequency Trading with Limit and Market Orders" (2011). {{ssrn|1871969}}.</ref> together with ] techniques.<ref>{{cite journal | last1 = Avellaneda | first1 = M. | last2 = Stoikov | first2 = S. | year = 2008 | title = High frequency trading in a limit order book | journal = Quantitative Finance | volume = 8 | issue = 3| pages = 217–224 | doi = 10.1080/14697680701381228 | s2cid = 6070889 }}</ref><ref>Cartea, Á., S. Jaimungal and J. Ricci (2011) "Buy Low Sell High: A High Frequency Trading Perspective". {{ssrn|1964781}}.</ref><ref>Cartea, Á. and S. Jaimungal (2012) "Risk Metrics and Fine Tuning of High Frequency Trading Strategies" {{ssrn|2010417}}.</ref><ref>{{cite journal | last1 = Guéant | first1 = O. | last2 = Lehalle | first2 = C.-A. | last3 = Fernandez-Tapia | first3 = J. | year = 2013 | title = Dealing with the inventory risk: a solution to the market making problem | journal = Mathematics and Financial Economics | volume = 4 | issue = 7| pages = 477–507 | arxiv = 1105.3115 | doi = 10.1007/s11579-012-0087-0| s2cid = 154587956 }}</ref>
Filter trading is one of the more primitive high-frequency trading strategies that involves monitoring large amounts of stocks for significant or unusual price changes or volume activity. This includes trading on announcements, news, or other event criteria. Software would then generate a buy or sell order depending on the nature of the event being looked for.<ref name="6strats">{{Citation |work=www.T3Live.com |accessdate=September 15, 2010 |title=The World Of High Frequency Trading: 6 Primary Strategies |url=https://www.fibozachi.com/images/stories/TechniciansCorner/WorldofHFT/t3live%20the%20world%20of%20hft.png }}</ref>


These strategies appear intimately related to the entry of new electronic venues. Academic study of Chi-X's entry into the European equity market reveals that its launch coincided with a large HFT that made markets using both the incumbent market, ]-], and the new market, Chi-X. The study shows that the new market provided ideal conditions for HFT market-making, low fees (i.e., rebates for quotes that led to execution) and a fast system, yet the HFT was equally active in the incumbent market to offload nonzero positions. New market entry and HFT arrival are further shown to coincide with a significant improvement in liquidity supply.<ref>The studies are available at: Jovanovic, Boyan and Albert J. Menkveld, "Middlemen in Limit Order Markets", {{ssrn|1624329}}, June 20, 2016; and {{cite journal | doi = 10.2139/ssrn.1722924 | title=High Frequency Trading and the New-Market Makers | journal=SSRN Electronic Journal | last1 = Menkveld | first1 = Albert J.| year=2012 | s2cid=219393758 | url=http://papers.tinbergen.nl/11076.pdf }}</ref>
Tick trading often aims to recognize the beginnings of large orders being placed in the market. For example, a large order from a pension fund to buy will take place over several hours or even days, and will cause a rise in price due to increased ]. An arbitreur can try to spot this happening then buy up the security, then profit from selling back to the pension fund. This strategy has become more difficult since the introduction of dedicated trade execution companies in the 2000s which provide optimal trading for pension and other funds, specifically designed to remove the arbitrage opportunity.


===Event arbitrage=== === Quote stuffing ===
{{See|Quote stuffing}}
Certain recurring events generate predictable short-term responses in a selected set of securities.{{Vague|date=April 2014}} High-frequency traders take advantage of such predictability to generate short-term profits.<ref name=RareEvents>{{cite web|last=Bozdog|first=Dragos|title=Rare Events Analysis of High-Frequency Equity Data|url=http://papers.ssrn.com/sol3/papers.cfm?abstract_id=2013355|publisher=Wilmott Journal, pp. 74-81, 2011|accessdate=20 November 2013}}</ref>


Quote stuffing is a form of abusive market manipulation that has been employed by high-frequency traders (HFT) and is subject to disciplinary action. It involves quickly entering and withdrawing a large number of orders in an attempt to flood the market creating confusion in the market and trading opportunities for high-frequency traders.<ref>{{cite web | title=Quote Stuffing Definition & Example | website=InvestingAnswers | url=http://www.investinganswers.com/financial-dictionary/stock-market/quote-stuffing-6320 | access-date=2019-08-27 | quote=Quote stuffing occurs when traders place a lot of buy or sell orders on a security and then cancel them immediately afterward, thereby manipulating the market price of the security. Manipulating the price of shares in order to benefit from the distortions in price is illegal.}}</ref><ref>{{cite web |url=http://www.investopedia.com/terms/q/quote-stuffing.asp |title=Quote Stuffing Definition |publisher=Investopedia |access-date=2014-08-22}}</ref> <ref>{{cite web|title=Quote Stuffing|url=http://www.nasdaq.com/investing/glossary/q/quote-stuffing|website=nasdaq.com|publisher=NASDAQ|access-date=10 September 2014}}</ref>
===Statistical arbitrage===

=== Ticker tape trading ===
{{other uses|Ticker tape (disambiguation)}}
Much information happens to be unwittingly embedded in market data, such as quotes and volumes. By observing a flow of quotes, computers are capable of extracting information that has not yet crossed the news screens. Since all quote and volume information is public, such strategies are fully compliant with all the applicable laws.

Filter trading is one of the more primitive high-frequency trading strategies that involves monitoring large amounts of stocks for significant or unusual price changes or volume activity. This includes trading on announcements, news, or other event criteria. Software would then generate a buy or sell order depending on the nature of the event being looked for.<ref name="6strats">{{Citation |work=www.T3Live.com |access-date=September 15, 2010 |title=The World of High Frequency Trading: 6 Primary Strategies |url=https://www.fibozachi.com/images/stories/TechniciansCorner/WorldofHFT/t3live%20the%20world%20of%20hft.png |archive-date=July 15, 2011 |archive-url=https://web.archive.org/web/20110715103848/https://www.fibozachi.com/images/stories/TechniciansCorner/WorldofHFT/t3live%20the%20world%20of%20hft.png |url-status=dead }}</ref>

Tick trading often aims to recognize the beginnings of large orders being placed in the market. For example, a large order from a pension fund to buy will take place over several hours or even days, and will cause a rise in price due to increased ]. An arbitrageur can try to spot this happening, buy up the security, then profit from selling back to the pension fund. This strategy has become more difficult since the introduction of dedicated trade execution companies in the 2000s{{citation needed|date=February 2020}} which provide optimal{{citation needed|date=February 2020}} trading for pension and other funds, specifically designed to remove{{citation needed|date=February 2020}} the arbitrage opportunity.

=== Statistical arbitrage ===
Another set of high-frequency trading strategies are strategies that exploit predictable temporary deviations from stable statistical relationships among securities. ] at high frequencies is actively used in all liquid securities, including equities, bonds, futures, foreign exchange, etc. Such strategies may also involve classical arbitrage strategies, such as covered ] in the ], which gives a relationship between the prices of a domestic bond, a bond denominated in a foreign currency, the spot price of the currency, and the price of a ] on the currency. High-frequency trading allows similar arbitrages using models of greater complexity involving many more than four securities. Another set of high-frequency trading strategies are strategies that exploit predictable temporary deviations from stable statistical relationships among securities. ] at high frequencies is actively used in all liquid securities, including equities, bonds, futures, foreign exchange, etc. Such strategies may also involve classical arbitrage strategies, such as covered ] in the ], which gives a relationship between the prices of a domestic bond, a bond denominated in a foreign currency, the spot price of the currency, and the price of a ] on the currency. High-frequency trading allows similar arbitrages using models of greater complexity involving many more than four securities.


The TABB Group estimates that annual aggregate profits of high-frequency arbitrage strategies exceeded US$21 billion in 2009,<ref name="advtrade"/> although the Purdue study estimates the profits for all high frequency trading were US$5 billion in 2009.<ref name="timeIsMoney"/> The TABB Group estimates that annual aggregate profits of high-frequency arbitrage strategies exceeded US$21&nbsp;billion in 2009,<ref name="advtrade">Rob Iati, {{Webarchive|url=https://web.archive.org/web/20110707090025/http://advancedtrading.com/algorithms/showArticle.jhtml?articleID=218401501 |date=2011-07-07 }}, ''AdvancedTrading.com'', July 10, 2009</ref> although the Purdue study estimates the profits for all high frequency trading were US$5&nbsp;billion in 2009.<ref name="timeIsMoney" />


===News-based trading=== === Index arbitrage ===
] exploits ] funds which are bound to buy and sell large volumes of securities in proportion to their changing weights in indices. If a HFT firm is able to access and process information which predicts these changes before the tracker funds do so, they can buy up securities in advance of the trackers and sell them on to them at a profit.
Company news in electronic text format is available from many sources including commercial providers like Bloomberg, public news websites, and Twitter feeds. Automated systems can identify company names, keywords and sometimes semantics to trade news before human traders can process it.


===Low-latency strategies=== === News-based trading ===
Company news in electronic text format is available from many sources including commercial providers like '']'', public news websites, and Twitter feeds. Automated systems can identify company names, keywords and sometimes semantics to make news-based trades before human traders can process the news.
A separate, "naïve" class of high-frequency trading strategies relies exclusively on ] technology. In these strategies, computer scientists rely on speed to gain minuscule advantages in arbitraging price discrepancies in some particular security trading simultaneously on disparate markets.{{citation needed|date=February 2015}}


=== Low-latency strategies ===
Another aspect of low latency strategy has been the switch from ] to ] technology for long distance networking. Especially since 2011, there has been a trend to use microwaves to transmit data across key connections such as the one between ] and ]. This is because microwaves travelling in air suffer a less than 1% speed reduction compared to light travelling in a vacuum, whereas with conventional fiber optics light travels over 30% slower.<ref name="timeIsMoney"/>
A separate, "naïve" class of high-frequency trading strategies relies exclusively on ] technology. In these strategies, computer scientists rely on speed to gain minuscule advantages in arbitraging price discrepancies in some particular security trading simultaneously on disparate markets.<ref>{{Cite news |date=2022-09-28 |title=Ultra-Low Latency OTN Technologies Boosting Brokerage Competitiveness |language=en |work=Lightwaveonline.com |url=https://www.lightwaveonline.com/network-design/packet-transport/article/14283476/ultralow-latency-otn-technologies-boosting-brokerage-competitiveness |access-date=2022-09-29}}</ref>


Another aspect of ] strategy has been the switch from ] to ] and ] technology for long distance networking. The switch to microwave transmission was because microwaves traveling in air suffer a less than 1% speed reduction compared to light traveling in a vacuum, whereas with conventional fiber optics light travels over 30% slower.<ref name="timeIsMoney" /> Especially since 2011, companies involved in HFT have massively invested in microwaves infrastructure to transmit data across key connections such as the one between ] and ] but also between ] and ], going through Belgium thanks to a network of former US army antennas.<ref>{{Cite news |date=2014-07-16 |title=Wall Street Buys NATO Towers in Trader Speed-of-Light Quest |language=en |work=Bloomberg.com |url=https://www.bloomberg.com/news/articles/2014-07-15/wall-street-grabs-nato-towers-in-traders-speed-of-light-quest |access-date=2022-06-05}}</ref><ref>{{Cite book |last=MacKenzie |first=Donald A. |url=https://www.worldcat.org/oclc/1221015294 |title=Trading at the speed of light : how ultrafast algorithms are transforming financial markets |date=2021 |isbn=978-0-691-21779-6 |location=Princeton, New Jersey |oclc=1221015294}}</ref> However, microwave transmission requires ], which is difficult over long distances, driving some HFT firms to use shortwave radio instead.<ref name="wsj High-Frequency Traders Eye Satellites for Ultimate Speed Boost">{{cite news |last1=Osipovich |first1=Alexander |title=High-Frequency Traders Eye Satellites for Ultimate Speed Boost |url=https://www.wsj.com/articles/high-frequency-traders-eye-satellites-for-ultimate-speed-boost-11617289217 |access-date=7 July 2022 |work=Wall Street Journal |date=1 April 2021}}</ref><ref name="Bloomberg Companies Pitch Shortwave Radio to Shave Milliseconds Off Trades">{{cite news |title=Companies Pitch Shortwave Radio to Shave Milliseconds Off Trades |url=https://www.bloomberg.com/news/articles/2020-06-17/companies-pitch-shortwave-radio-to-shave-milliseconds-off-trades |access-date=7 July 2022 |work=Bloomberg.com |date=17 June 2020 |language=en}}</ref> Shortwave radio signals can be transmitted over a longer distance, but carry less information; in 2020, a hedge fund partner quoted in ] said that shortwave ] is insufficient for transmitting full ] feeds for low-latency strategies.<ref name="Bloomberg Companies Pitch Shortwave Radio to Shave Milliseconds Off Trades"/> Firms have also looked into using ]s to transmit market data.<ref name="wsj High-Frequency Traders Eye Satellites for Ultimate Speed Boost"/>
===Order properties strategies===
High-frequency trading strategies may use properties derived from market data feeds to identify orders that are posted at sub-optimal prices. Such orders may offer a profit to their counterparties that high-frequency traders can try to obtain. Examples of these features include the age of an order <ref>https://mechanicalmarkets.wordpress.com/2015/01/20/identifying-trader-type-pt-2/</ref> or the sizes of displayed orders.<ref>https://mechanicalmarkets.wordpress.com/2015/02/09/order-size-in-the-hft-era-identifying-trade-type-pt-3/</ref> Tracking important order properties may also allow trading strategies to have a more accurate prediction of the future price of a security.


=== Order properties strategies ===
==Effects==
High-frequency trading strategies may use properties derived from market data feeds to identify orders that are posted at sub-optimal prices. Such orders may offer a profit to their counterparties that high-frequency traders can try to obtain. Examples of these features include the age of an order<ref>{{cite web|url=https://mechanicalmarkets.wordpress.com/2015/01/20/identifying-trader-type-pt-2/|title=Creating an HFT Strategy: Identifying Trader Type Pt. 2|first=Kipp|last=Rogers|date=20 January 2015|access-date=27 June 2016}}</ref> or the sizes of displayed orders.<ref>{{cite web|url=https://mechanicalmarkets.wordpress.com/2015/02/09/order-size-in-the-hft-era-identifying-trade-type-pt-3/|title=Order Size in the HFT Era: Identifying Trader Type Pt. 3|first=Kipp|last=Rogers|date=9 February 2015|access-date=27 June 2016}}</ref> Tracking important order properties may also allow trading strategies to have a more accurate prediction of the future price of a security.


== Effects ==
The effects of algorithmic and high-frequency trading are the subject of ongoing research. Regulators claim these practices contributed to volatility in the May 6, 2010 Flash Crash<ref name=WSJ1 /><ref name=bloomberg1 /><ref name=NYT1 /><ref name=reuters1 /><ref name=wapo1 /><ref name=reuters2 /> and find that risk controls are much less stringent for faster trades.<ref name="chicagofed"/>
The effects of algorithmic and high-frequency trading are the subject of ongoing research. High frequency trading causes regulatory concerns as a contributor to market fragility.<ref>{{cite journal|quote=This supports regulatory concerns about the potential drawbacks of automated trading due to operational and transmission risks and implies that fragility can arise in the absence of order flow toxicity.|title=High frequency trading and fragility|author=Giovanni Cespa, Xavier Vives|journal=Working Papers Series|publisher=]|issue=2020|date=February 2017|url=https://www.ecb.europa.eu/pub/pdf/scpwps/ecbwp2020.en.pdf}}</ref>
Regulators claim these practices contributed to volatility in the May 6, 2010, Flash Crash{{refn|<ref name=WSJ1 /><ref name=bloomberg1 /><ref name=NYT1 /><ref name=reuters1 /><ref name=wapo1 /><ref name=reuters2 />}} and find that risk controls are much less stringent for faster trades.<ref name="chicagofed" />


Members of the financial industry generally claim high-frequency trading substantially improves market liquidity,<ref name="secletter1" /> narrows ], lowers volatility and makes trading and investing cheaper for other market participants.<ref name="secletter1" /><ref name="mktbeat"/><ref name="howhft"></ref><ref name="hftsmall"></ref> Members of the financial industry generally claim high-frequency trading substantially improves market liquidity,<ref name="secletter1" /> narrows ], lowers volatility and makes trading and investing cheaper for other market participants.{{refn|<ref name="secletter1" /><ref name="mktbeat" /><ref name="howhft">{{cite web|url=https://www.tradersmagazine.com/news/commentary-how-high-frequency-trading-benefits-all-investors/|title=Commentary: How High Frequency Trading Benefits All Investors|date=17 March 2010 |access-date=27 June 2016|url-access=registration}}</ref><ref name="hftsmall">{{cite web|url=https://www.forbes.com/2010/01/20/high-frequency-trading-personal-finance-cboe-flash.html|title=High-Frequency Trading Good For Small Investors: CBOE Forbes|first=Emily|last=Lambert|website=]|date=20 January 2010|access-date=27 June 2016}}</ref>}}


An academic study<ref name="liquid">{{cite journal | last1 =Hendershott | first1 =Terrence | last2 =Jones | first2 =Charles M. | last3 =Menkveldf | first3 =Albert J. | title =Does Algorithmic Trading Improve Liquidity? | journal = Journal of Finance | volume = LXVI | issue = 1 | date = February 2011 | url = http://faculty.haas.berkeley.edu/hender/Algo.pdf | accessdate = January 30, 2015}}</ref> found that, for large-cap stocks and in quiescent markets during periods of "generally rising stock prices", high-frequency trading lowers the cost of trading and increases the informativeness of quotes;<ref name="liquid" />{{rp|31}} however, it found "no significant effects for smaller-cap stocks",<ref name="liquid" />{{rp|3}} and "it remains an open question whether algorithmic trading and algorithmic liquidity supply are equally beneficial in more turbulent or declining markets. ...algorithmic liquidity suppliers may simply turn off their machines when markets spike downward."<ref name="liquid" />{{rp|31}} An academic study<ref name="liquid">{{cite journal | last1 =Hendershott | first1 =Terrence | last2 =Jones | first2 =Charles M. | last3 =Menkveldf | first3 =Albert J. | title =Does Algorithmic Trading Improve Liquidity? | journal = Journal of Finance | volume = LXVI | issue = 1 | pages =1–33 | date = February 2011 | url = http://faculty.haas.berkeley.edu/hender/Algo.pdf | access-date = January 30, 2015 | doi = 10.1111/j.1540-6261.2010.01624.x | citeseerx =10.1.1.105.7253 | s2cid =30441 }}</ref> found that, for large-cap stocks and in quiescent markets during periods of "generally rising stock prices", high-frequency trading lowers the cost of trading and increases the informativeness of quotes;<ref name="liquid" />{{rp|31}} however, it found "no significant effects for smaller-cap stocks",<ref name="liquid" />{{rp|3}} and "it remains an open question whether algorithmic trading and algorithmic liquidity supply are equally beneficial in more turbulent or declining markets. ...algorithmic liquidity suppliers may simply turn off their machines when markets spike downward."<ref name="liquid" />{{rp|31}}


In September 2011, market data vendor ] published a report stating the contrary. They looked at the amount of quote traffic compared to the value of trade transactions over 4 and half years and saw a 10-fold decrease in efficiency.<ref>http://www.nanex.net/Research/ExhibitA/ExhibitA.html</ref> Nanex's owner is an outspoken detractor of high-frequency trading.<ref>{{cite news|title=Nanex's Hunsader Seeks To 'Save' Markets From High-Frequency Trading|url=http://www.forbes.com/sites/kitconews/2014/02/06/nanexs-hunsader-seeks-to-save-markets-from-high-frequency-trading/|accessdate=11 July 2014|publisher=Forbes|date=6 February 2014}}</ref> Many discussions about HFT focus solely on the frequency aspect of the algorithms and not on their decision-making logic (which is typically kept secret by the companies that develop them). This makes it difficult for observers to pre-identify market scenarios where HFT will dampen or amplify price fluctuations. The growing quote traffic compared to trade value could indicate that more firms are trying to profit from cross-market arbitrage techniques that do not add significant value through increased liquidity when measured globally. In September 2011, market data vendor ] published a report stating the contrary. They looked at the amount of quote traffic compared to the value of trade transactions over 4 and half years and saw a 10-fold decrease in efficiency.<ref>{{cite web|url=http://www.nanex.net/Research/ExhibitA/ExhibitA.html|title=Nanex – Exhibit A|access-date=27 June 2016}}</ref> Nanex's owner is an outspoken detractor of high-frequency trading.<ref>{{cite news|title=Nanex's Hunsader Seeks To 'Save' Markets From High-Frequency Trading|url=https://www.forbes.com/sites/kitconews/2014/02/06/nanexs-hunsader-seeks-to-save-markets-from-high-frequency-trading/|access-date=11 July 2014|work=Forbes|date=6 February 2014}}</ref> Many discussions about HFT focus solely on the frequency aspect of the algorithms and not on their decision-making logic (which is typically kept secret by the companies that develop them). This makes it difficult for observers to pre-identify market scenarios where HFT will dampen or amplify price fluctuations. The growing quote traffic compared to trade value could indicate that more firms are trying to profit from cross-market arbitrage techniques that do not add significant value through increased liquidity when measured globally.


More fully automated markets such as ], Direct Edge, and BATS, in the US, gained market share from less automated markets such as the ]. ] in electronic trading contributed to lowering commissions and trade processing fees, and contributed to international mergers and consolidation of ]. More fully automated markets such as ], Direct Edge, and BATS, in the US, gained market share from less automated markets such as the ]. ] in electronic trading contributed to lowering commissions and trade processing fees, and contributed to international mergers and consolidation of ].


The speeds of computer connections, measured in milliseconds or microseconds, have become important.<ref></ref><ref></ref> Competition is developing among exchanges for the fastest processing times for completing trades. For example, in 2009 the ] bought a technology firm called MillenniumIT and announced plans to implement its Millennium Exchange platform<ref>{{Cite press release|title=London Stock Exchange Group to acquire MillenniumIT for US$30m (£18m)|publisher=The London Stock Exchange|date=2009-09-16|url=http://www.londonstockexchange.com/about-the-exchange/media-relations/press-releases/2009/london-stock-exchange-group-to-acquire-millenniumit-for-us30m-18m.htm}}</ref> which they claim has an average latency of 126 microseconds.<ref>{{Cite press release| title=Turquoise confirms it is the world's fastest trading platform|publisher=Turquoise|date=2010-10-20|url=http://www.tradeturquoise.com/press/TQ_Latency_Press_Release.pdf}}</ref> The speeds of computer connections, measured in milliseconds or microseconds, have become important.<ref>{{cite news|url=http://www.economist.com/finance/displaystory.cfm?story_id=E1_RRNJGNP|title=Business and finance|newspaper=]|access-date=27 June 2016}}</ref><ref>{{cite web|url=http://www.wallstreetandtech.com/showArticle.jhtml?articleID=198001836|title=InformationWeek Authors InformationWeek|access-date=27 June 2016|archive-url=https://web.archive.org/web/20071022160012/http://www.wallstreetandtech.com/showArticle.jhtml?articleID=198001836|archive-date=22 October 2007|url-status=dead}}</ref> Competition is developing among exchanges for the fastest processing times for completing trades. For example, in 2009 the ] bought a technology firm called MillenniumIT and announced plans to implement its Millennium Exchange platform<ref>{{Cite press release|title=London Stock Exchange Group to acquire MillenniumIT for US$30m (£18m) |publisher=London Stock Exchange Group |date=2009-09-16 |url=http://www.lseg.com/media-centre/news/corporate-press-releases/london-stock-exchange-group-acquire-millenniumit-us30m-%C2%A318m |access-date=2017-04-02}}</ref> which they claim has an average latency of 126 microseconds.<ref>{{Cite press release|title=Turquoise confirms it is the world's fastest trading platform|publisher=Turquoise|date=2010-10-20|url=http://www.tradeturquoise.com/press/TQ_Latency_Press_Release.pdf|url-status=dead|archive-url=https://web.archive.org/web/20110717083852/http://www.tradeturquoise.com/press/TQ_Latency_Press_Release.pdf|archive-date=2011-07-17}}</ref> This allows sub-millisecond resolution ] of the ]. ] currently allows for nanoseconds resolution of timestamps using a ] clock with 100 nanoseconds precision.<ref>{{cite web|url=https://bookmap.com/Market_Mechanics#Timestamps_in_Bookmap|title=Market Mechanics Timestamps}}</ref>


Spending on computers and software in the financial industry increased to $26.4 billion in 2005.<ref name="economist.com"></ref> Spending on computers and software in the financial industry increased to $26.4&nbsp;billion in 2005.<ref name="economist.com">{{cite news|url=http://www.economist.com/finance/displaystory.cfm?story_id=E1_VQSVPRT|title=Business and finance|newspaper=]|access-date=27 June 2016|archive-date=22 June 2008|archive-url=https://web.archive.org/web/20080622165320/http://www.economist.com/finance/displaystory.cfm?story_id=E1_VQSVPRT|url-status=dead}}</ref>

===On index funds by trading ahead of rebalancing===
Most ], such as private ] funds or ] and ]s in the US, are invested in ]s, the most popular of which are ]s which must periodically "rebalance" or adjust their portfolio to match the new prices and ] of the underlying securities in the ] that they track.<ref name=BloombergFA>{{cite news|title=High-Frequency Firms Tripled Trades in Stock Rout, Wedbush Says|url=http://www.fa-mag.com/news/high-frequency-firms-tripled-trades-in-stock-rout-wedbush-says-8030.html|accessdate=26 March 2013|newspaper=Bloomberg/Financial Advisor|date=August 12, 2011}}</ref><ref>{{cite news|last=Siedle|first=Ted|title=Americans Want More Social Security, Not Less|url=http://www.forbes.com/sites/edwardsiedle/2013/03/25/americans-want-more-social-security-not-less-let-them-buy-it/|accessdate=26 March 2013|newspaper=Forbes|date=March 25, 2013}}</ref> This allows algorithmic traders (80% of the trades of whom involve the top 20% most popular securities<ref name=BloombergFA/>) to anticipate and trade ahead of ] caused by mutual fund rebalancing, making a profit on advance knowledge of the large institutional block orders.<ref name=AmeryRebalancing>{{cite news|last=Amery|first=Paul|title=Know Your Enemy|url=http://www.indexuniverse.eu/europe/opinion-and-analysis/7634-know-your-enemy.html?showall=&fullart=1&start=2|accessdate=26 March 2013|newspaper=IndexUniverse.eu|date=November 11, 2010}}</ref><ref>{{cite news|last=Salmon|first=Felix|title=What’s driving the Total Return ETF?|url=http://blogs.reuters.com/felix-salmon/2012/07/18/whats-driving-the-total-return-etf/|accessdate=26 March 2013|newspaper=Reuters|date=July 18, 2012}}</ref> This results in profits transferred from investors to algorithmic traders, estimated to be at least 21 to 28 ]s annually for ] index funds, and at least 38 to 77 basis points per year for ] funds.<ref name=Petajisto>{{cite journal|last=Petajisto|first=Antti|title=The index premium and its hidden cost for index funds|journal=Journal of Empirical Finance|year=2011|volume=18|pages=271–288|doi=10.1016/j.jempfin.2010.10.002|url=http://www.petajisto.net/papers/petajisto%202011%20jef%20-%20hidden%20cost%20for%20index%20funds.pdf|accessdate=26 March 2013}}</ref> John Montgomery of ] says that the resulting "poor investor returns" from trading ahead of mutual funds is "the elephant in the room" that "shockingly, people are not talking about."<ref name=Montgomery>{{cite news|last=Rekenthaler|first=John|title=The Weighting Game, and Other Puzzles of Indexing|url=http://www.crsp.com/images/Reprint_Feb_Mar11MornignstarConversation_color.pdf|accessdate=26 March 2013|newspaper=Morningstar Advisor|date=February/March 2011|page=56|pages=52–56}}</ref>


=== May 6, 2010 Flash Crash === === May 6, 2010 Flash Crash ===
{{Main|2010 Flash Crash}} {{Main|2010 Flash Crash}}


The brief but dramatic stock market crash of May 6, 2010 was initially thought to have been caused by high-frequency trading.<ref>{{cite news|first=Tom| last=Braithwaite|title=Watchdogs under pressure on market swings|url=http://www.ft.com/cms/s/0/65fdeb0e-5a12-11df-acdc-00144feab49a.html|work=]|date= 2010-05-07|accessdate=2010-05-08}}</ref> The Dow Jones Industrial Average plunged to its largest intraday point loss, but not percentage loss,<ref name="wsj101507">{{cite news|last=Browning|first=E.S.| title=Exorcising Ghosts of Octobers Past|work=The Wall Street Journal|pages=C1–C2|publisher=Dow Jones & Company|date=2007-10-15| url=http://online.wsj.com/article/SB119239926667758592.html?mod=mkts_main_news_hs_h|accessdate=2007-10-15}}</ref> in history, only to recover much of those losses within minutes.<ref name=Lauricella1> Lauricella, Tom, and McKay, Peter A. "Dow Takes a Harrowing 1,010.14-Point Trip," Online Wall Street Journal, May 7, 2010. Retrieved May 9, 2010</ref> The brief but dramatic stock market crash of May 6, 2010, was initially thought to have been caused by high-frequency trading.<ref>{{cite news|first=Tom| last=Braithwaite|title=Watchdogs under pressure on market swings|url=http://www.ft.com/cms/s/0/65fdeb0e-5a12-11df-acdc-00144feab49a.html|work=]|date= 2010-05-07|access-date=2010-05-08}}</ref> The ] plunged to its largest intraday point loss, but not percentage loss,<ref name="wsj101507">{{cite news|last=Browning|first=E.S.| title=Exorcising Ghosts of Octobers Past|work=The Wall Street Journal|pages=C1–C2|publisher=Dow Jones & Company|date=2007-10-15| url=https://www.wsj.com/articles/SB119239926667758592?mod=mkts_main_news_hs_h|access-date=2007-10-15}}</ref> in history, only to recover much of those losses within minutes.<ref name="Lauricella1"> Lauricella, Tom, and McKay, Peter A. "Dow Takes a Harrowing 1,010.14-Point Trip," Online Wall Street Journal, May 7, 2010. Retrieved May 9, 2010</ref>


In the aftermath of the crash, several organizations argued that high-frequency trading was not to blame, and may even have been a major factor in minimizing and partially reversing the Flash Crash.<ref name="wsjflashcrash">Michael Corkery, '']'', September 13, 2010, </ref> ], a large ], stated that, insofar as stock index futures traded on CME Group were concerned, its investigation had found no support for the notion that high-frequency trading was related to the crash, and actually stated it had a market stabilizing effect.<ref name="cme1">{{cite web|publisher=]|title=What happened on May 6th?|url=http://www.scribd.com/doc/31546905/CME-Group-Report-on-the-Flash-Crash| date=2010-05-18}}</ref> In the aftermath of the crash, several organizations argued that high-frequency trading was not to blame, and may even have been a major factor in minimizing and partially reversing the Flash Crash.<ref name="wsjflashcrash">Corkery, Michael, , '']'', September 13, 2010.</ref> ], a large ], stated that, insofar as stock index futures traded on CME Group were concerned, its investigation had found no support for the notion that high-frequency trading was related to the crash, and actually stated it had a market stabilizing effect.<ref name="cme1">{{cite web|publisher=]|title=What happened on May 6th?|url=https://www.scribd.com/doc/31546905/CME-Group-Report-on-the-Flash-Crash| date=2010-05-18}}</ref>


However, after almost five months of investigations, the ] (''SEC'') and the ] (''CFTC'') issued a joint report identifying the cause that set off the sequence of events leading to the Flash Crash<ref name="flashreport">{{cite web|title=Findings Regarding the Market Events of May 6, 2010|url=http://www.sec.gov/news/studies/2010/marketevents-report.pdf|date=2010-09-30}}</ref> and concluding that the actions of high-frequency trading firms contributed to volatility during the crash. However, after almost five months of investigations, the ] (''SEC'') and the ] (''CFTC'') issued a joint report identifying the cause that set off the sequence of events leading to the Flash Crash<ref name="flashreport">{{cite web|title=Findings Regarding the Market Events of May 6, 2010|url=https://www.sec.gov/news/studies/2010/marketevents-report.pdf|date=2010-09-30}}</ref> and concluding that the actions of high-frequency trading firms contributed to volatility during the crash.


The report found that the cause was a single sale of $4.1 billion in futures contracts by a mutual fund, identified as ], in an aggressive attempt to hedge its investment position.<ref name=scannell>{{cite news| first=Kara|last=Scannell|title=Report: Algorithm Set Off 'Flash Crash' Amid Stressed Market|url=http://online.wsj.com/article/SB10001424052748703859204575525973854203534.html|newspaper=]|date=2010-10-01|accessdate=2010-10-01}}</ref><ref>{{cite web|url= http://www.spiegel.de/wirtschaft/unternehmen/0,1518,695123,00.html|title=Die Spur führt nach Kansas|first=Marc|last=Pritzke|work=]|date=2010-05-17|accessdate= 2010-10-01|language=German}}</ref> The joint report also found that "high-frequency traders quickly magnified the impact of the mutual fund's selling."<ref name=WSJ1 /> The joint report "portrayed a market so fragmented and fragile that a single large trade could send stocks into a sudden spiral," that a large mutual fund firm "chose to sell a big number of futures contracts using a computer program that essentially ended up wiping out available buyers in the market," that as a result high-frequency firms "were also aggressively selling the E-mini contracts," contributing to rapid price declines.<ref name=WSJ1 /> The joint report also noted "'HFTs began to quickly buy and then resell contracts to each other generating a 'hot-potato' volume effect as the same positions were passed rapidly back and forth.'"<ref name=WSJ1 /> The combined sales by Waddell and high-frequency firms quickly drove "the E-mini price down 3% in just four minutes."<ref name=WSJ1 /> As prices in the futures market fell, there was a spillover into the equities markets where "the liquidity in the market evaporated because the automated systems used by most firms to keep pace with the market paused" and scaled back their trading or withdrew from the markets altogether.<ref name=WSJ1 /> The joint report then noted that "Automatic computerized traders on the stock market shut down as they detected the sharp rise in buying and selling."<ref name=NYT1 /> As computerized high-frequency traders exited the stock market, the resulting lack of liquidity "...caused shares of some prominent companies like ] and ] to trade down as low as a penny or as high as $100,000."<ref name=NYT1 /> While some firms exited the market, high-frequency firms that remained in the market exacerbated price declines because they "'escalated their aggressive selling' during the downdraft."<ref name=vwhft/> In the years following the flash crash, academic researchers and experts from the CFTC pointed to high-frequency trading as just one component of the complex current U.S. market structure that led to the events of May 6, 2010.<ref name="kirilenko">{{Citation |last1=Kirilenko |first1=Andrei |last2=Kyle |first2=Albert S. |last3=Samadi |first3=Mehrdad |last4=Tuzun |first4=Tugkan |title=The Flash Crash: The Impact of High Frequency Trading on an Electronic Market |publisher=Social Science Research Network |date=May 5, 2014}}</ref> The report found that the cause was a single sale of $4.1&nbsp;billion in futures contracts by a mutual fund, identified as ], in an aggressive attempt to hedge its investment position.<ref name=scannell>{{cite news| first=Kara|last=Scannell|title=Report: Algorithm Set Off 'Flash Crash' Amid Stressed Market|url=https://www.wsj.com/articles/SB10001424052748703859204575525973854203534|newspaper=]|date=2010-10-01|access-date=2010-10-01}}</ref><ref>{{cite web|url= http://www.spiegel.de/wirtschaft/unternehmen/0,1518,695123,00.html|title=Die Spur führt nach Kansas|first=Marc|last=Pritzke|work=]|date=2010-05-17|access-date= 2010-10-01|language=de}}</ref> The joint report also found that "high-frequency traders quickly magnified the impact of the mutual fund's selling."<ref name=WSJ1 /> The joint report "portrayed a market so fragmented and fragile that a single large trade could send stocks into a sudden spiral", that a large mutual fund firm "chose to sell a big number of futures contracts using a computer program that essentially ended up wiping out available buyers in the market", that as a result high-frequency firms "were also aggressively selling the E-mini contracts", contributing to rapid price declines.<ref name=WSJ1 /> The joint report also noted "HFTs began to quickly buy and then resell contracts to each other generating a 'hot-potato' volume effect as the same positions were passed rapidly back and forth."<ref name=WSJ1 /> The combined sales by Waddell and high-frequency firms quickly drove "the E-mini price down 3% in just four minutes".<ref name=WSJ1 /> As prices in the futures market fell, there was a spillover into the equities markets where "the liquidity in the market evaporated because the automated systems used by most firms to keep pace with the market paused" and scaled back their trading or withdrew from the markets altogether.<ref name=WSJ1 /> The joint report then noted that "Automatic computerized traders on the stock market shut down as they detected the sharp rise in buying and selling."<ref name=NYT1 /> As computerized high-frequency traders exited the stock market, the resulting lack of liquidity "...caused shares of some prominent companies like ] and ] to trade down as low as a penny or as high as $100,000".<ref name=NYT1 /> While some firms exited the market, high-frequency firms that remained in the market exacerbated price declines because they "'escalated their aggressive selling' during the downdraft".<ref name=vwhft /> In the years following the flash crash, academic researchers and experts from the CFTC pointed to high-frequency trading as just one component of the complex current U.S. market structure that led to the events of May 6, 2010.<ref name="kirilenko">{{Citation |last1=Kirilenko |first1=Andrei |last2=Kyle |first2=Albert S. |last3=Samadi |first3=Mehrdad |last4=Tuzun |first4=Tugkan |title=The Flash Crash: High Frequency Trading on an Electronic Market |ssrn=1686004 |date=May 5, 2014|doi=10.2139/ssrn.1686004 |s2cid=169838937 }}</ref>


==Risks and controversy== == Granularity and accuracy ==
In 2015 the Paris-based regulator of the 28-nation European Union, the ], proposed time standards to span the EU, that would more accurately synchronize trading clocks "to within a nanosecond, or one-billionth of a second" to refine regulation of gateway-to-gateway latency time—"the speed at which trading venues acknowledge an order after receiving a trade request". Using these more detailed time-stamps, regulators would be better able to distinguish the order in which trade requests are received and executed, to identify market abuse and prevent potential manipulation of European securities markets by traders using advanced, powerful, fast computers and networks. The fastest technologies give traders an advantage over other "slower" investors as they can change prices of the securities they trade.<ref name="Bloomberg_2015">{{citation |url=https://www.bloomberg.com/news/articles/2015-03-18/regulators-outpace-physicists-in-race-to-catch-flash-boys |title=Regulators Outpace Physicists in Race to Catch the 'Flash Boys' |publisher=Bloomberg |date=18 March 2015 |access-date=20 March 2015 |first=Ben |last=Moshinsky }}</ref>
Various studies reported that high-frequency trading reduces volatility and does not pose a systemic risk,<ref name="secletter1" /><ref name="howhft" /><ref name="hftsmall" /><ref name="cme1" /> and lowers transaction costs for retail investors,<ref name=vwhft/><ref name="howhft" /><ref name="hftsmall" /><ref name="liquid"/> without impacting long term investors.<ref name="whatis" /><ref name="secletter1" /><ref name="hftsmall" /> However, high-frequency trading has been the subject of intense public focus and debate since the May 6, 2010 Flash Crash.<ref name=WSJ1>{{Cite news|title=How a Trading Algorithm Went Awry|last=Lauricella|first=Tom|publisher=The Wall Street Journal|url=http://online.wsj.com/article/SB10001424052748704029304575526390131916792.html|date=October 2, 2010}}</ref><ref name=bloomberg1>{{Cite news|title=Automatic Futures Trade Drove May Stock Crash, Report Says|last=Mehta|first=Nina|publisher=Bloomberg|date=1 Oct 2010|url=http://www.bloomberg.com/news/2010-10-01/automatic-trade-of-futures-drove-may-6-stock-crash-report-says.html}}</ref><ref name=NYT1>{{Cite news|title=Lone $4.1 Billion Sale Led to ‘Flash Crash’ in May|last=Bowley|first=Graham|publisher=The New York Times|date=1 Oct 2010|url=http://www.nytimes.com/2010/10/02/business/02flash.html?_r=1&scp=1&sq=flash+crash&st=nyt}}</ref><ref name=reuters1>{{Cite news|title=Single U.S. trade helped spark May's flash crash|last=Spicer|first=Jonathan|publisher=Reuters|date=1 Oct 2010|url=http://www.reuters.com/article/idUKN0114164220101001}}</ref><ref name=wapo1>{{Cite news|title=Report examines May's 'flash crash,' expresses concern over high-speed trading|last=Goldfarb|first=Zachary|date=1 Oct 2010|publisher=Washington Post|url=http://www.washingtonpost.com/wp-dyn/content/article/2010/10/01/AR2010100103969.html}}</ref><ref name=reuters2>{{Cite news|title=Special report: Globally, the flash crash is no flash in the pan|last=Spicer|first=Jonathan|publisher=Reuters|date=15 Oct 2010|url=http://www.reuters.com/article/idUSTRE69E1Q520101015}}</ref><ref name=popper>{{Cite news|title=$4.1-billion trade set off Wall Street 'flash crash,' report finds|last=Popper|first=Nathaniel|date=1 Oct 2010|publisher=Los Angeles Times|url=http://www.latimes.com/business/la-fi-flash-crash-20101002,0,7811306.story}}</ref><ref name=younglai>{{Cite news|title=U.S. probes computer algorithms after "flash crash"|last=Younglai|first=Rachelle|date=5 Oct 2010|publisher=Reuters|url=http://www.reuters.com/article/idUSTRE6945LH20101005}}</ref><ref name="goslow">{{cite news |author=] |title=What can be done to slow high-frequency trading?|url=http://www.ft.com/cms/s/0/d72966fa-bc2d-11df-8c02-00144feab49a.html |work=] |date=Sep 9, 2010 |accessdate=Sep 10, 2010}}</ref> At least one Nobel Prize–winning economist, Michael Spence, believes that HFT should be banned.<ref>http://www.freakonomics.com/2011/03/28/should-high-frequency-trading-be-banned-one-nobel-winner-thinks-so/</ref> A ] found "the presence of high frequency trading has significantly mitigated the frequency and severity of end-of-day price dislocation".<ref name="cumming">{{Citation |last1=Cumming |first1=Douglas |last2=Zhan |first2=Feng |last3=Aitken |first3=Michael |title=High-Frequency Trading and End-of-Day Price Dislocation |url=http://ssrn.com/abstract=2145565 |publisher=Social Science Research Network |date=October 28, 2013}}</ref>


== Risks and controversy ==
In their joint report on the 2010 Flash Crash, the ] and the ] stated that "market makers and other liquidity providers widened their quote spreads, others reduced offered liquidity, and a significant number withdrew completely from the markets"<ref name="flashreport" /> during the flash crash.
According to author ], the ability of regulators to enforce the rules has greatly declined since 2005 with the passing of the ] (Reg NMS) by the SEC. As a result, the ]'s quasi monopoly role as a stock rule maker was undermined and turned the stock exchange into one of many globally operating exchanges. The market then became more fractured and granular, as did the regulatory bodies, and since stock exchanges had turned into entities also seeking to maximize profits, the one with the most lenient regulators were rewarded, and oversight over traders' activities was lost. This fragmentation has greatly benefitted HFT.<ref>{{Cite book|title=Darkness by Design: The Hidden Power in Global Capital Markets|last=Mattli|first=Walter|publisher=Princeton University Press|year=2019}}</ref>


High-frequency trading comprises many different types of algorithms.<ref name="HFTpracticalguide2013" /> Various studies reported that certain types of market-making high-frequency trading reduces volatility and does not pose a systemic risk,<ref name="secletter1" /><ref name="howhft" /><ref name="hftsmall" /><ref name="cme1" /> and lowers transaction costs for retail investors,<ref name="vwhft" /><ref name="liquid" /><ref name="howhft" /><ref name="hftsmall" /> without impacting long term investors.<ref name="whatis" /><ref name="secletter1" /><ref name="hftsmall" /> Other studies, summarized in Aldridge, Krawciw, 2017<ref>Aldridge, I., Krawciw, S., 2017. Real-Time Risk: What Investors Should Know About Fintech, High-Frequency Trading and Flash Crashes. Hoboken: Wiley. {{ISBN|1-119-31896-3}}</ref> find that high-frequency trading strategies known as "aggressive" erode liquidity and cause volatility.
Politicians, regulators, scholars, journalists and market participants have all raised concerns on both sides of the Atlantic.<ref name="bandsaw"/><ref name="goslow"/><ref name="cowboys">{{cite news |author=] |title=Rein in the cyber cowboys|url=http://www.ft.com/cms/s/0/e0cf72a6-b9e1-11df-8804-00144feabdc0.html |work=] |date=Sep 6, 2010 |accessdate=Sep 10, 2010}}</ref> and this has led to discussion of whether high-frequency market makers should be subject to various kinds of regulations.


High-frequency trading has been the subject of intense public focus and debate since the May 6, 2010, Flash Crash.{{refn|<ref name=WSJ1>{{Cite news|title=How a Trading Algorithm Went Awry|last=Lauricella|first=Tom|publisher=The Wall Street Journal|url=https://www.wsj.com/articles/SB10001424052748704029304575526390131916792|date=October 2, 2010}}</ref><ref name=bloomberg1>{{Cite news|title=Automatic Futures Trade Drove May Stock Crash, Report Says|last=Mehta|first=Nina|publisher=Bloomberg L.P.|date=1 Oct 2010|url=https://www.bloomberg.com/news/2010-10-01/automatic-trade-of-futures-drove-may-6-stock-crash-report-says.html}}</ref><ref name=NYT1>{{Cite news|title=Lone $4.1 Billion Sale Led to 'Flash Crash' in May|last=Bowley|first=Graham|work=The New York Times|date=1 Oct 2010|url=https://www.nytimes.com/2010/10/02/business/02flash.html?_r=1&scp=1&sq=flash+crash&st=nyt}}</ref><ref name=reuters1>{{Cite news|title=Single U.S. trade helped spark May's flash crash|last=Spicer|first=Jonathan|publisher=Reuters|date=1 Oct 2010|url=https://www.reuters.com/article/idUKN0114164220101001}}</ref><ref name=wapo1>{{Cite news|title=Report examines May's 'flash crash,' expresses concern over high-speed trading|last=Goldfarb|first=Zachary|date=1 Oct 2010|newspaper=Washington Post|url=https://www.washingtonpost.com/wp-dyn/content/article/2010/10/01/AR2010100103969.html}}</ref><ref name=reuters2>{{Cite news|title=Special report: Globally, the flash crash is no flash in the pan|last=Spicer|first=Jonathan|publisher=Reuters|date=15 Oct 2010|url=https://www.reuters.com/article/idUSTRE69E1Q520101015}}</ref><ref name=popper>{{Cite news|title=$4.1-billion trade set off Wall Street 'flash crash,' report finds|last=Popper|first=Nathaniel|date=1 Oct 2010|work=Los Angeles Times|url=http://www.latimes.com/business/la-fi-flash-crash-20101002,0,7811306.story}}</ref><ref name=younglai>{{Cite news|title=U.S. probes computer algorithms after "flash crash"|last=Younglai|first=Rachelle|date=5 Oct 2010|publisher=Reuters|url=https://www.reuters.com/article/idUSTRE6945LH20101005}}</ref><ref name="goslow">{{cite news |author=Tett, Gillian |title=What can be done to slow high-frequency trading?|url=http://www.ft.com/cms/s/0/d72966fa-bc2d-11df-8c02-00144feab49a.html |work=] |date=Sep 9, 2010 |access-date=Sep 10, 2010|author-link=Gillian Tett}}</ref>}} At least one Nobel Prize–winning economist, ], believes that HFT should be banned.<ref>{{cite web|url=http://freakonomics.com/2011/03/28/should-high-frequency-trading-be-banned-one-nobel-winner-thinks-so/|title=Should High-Frequency Trading Be Banned? One Nobel Winner Thinks So|first=Matthew|last=Philips|date=28 March 2011|access-date=27 June 2016}}</ref> A ] found "the presence of high frequency trading has significantly mitigated the frequency and severity of end-of-day price dislocation".<ref name="cumming">{{Citation |last1=Cumming |first1=Douglas |last2=Zhan |first2=Feng |last3=Aitken |first3=Michael |title=High-Frequency Trading and End-of-Day Price Dislocation |ssrn=2145565 |publisher=Social Science Research Network |date=October 28, 2013}}</ref>
In a September 22, 2010 speech, SEC chairperson ] signaled that US authorities were considering the introduction of regulations targeted at HFT. She said, "high frequency trading firms have a tremendous capacity to affect the stability and integrity of the equity markets. Currently, however, high frequency trading firms are subject to very little in the way of obligations either to protect that stability by promoting reasonable price continuity in tough times, or to refrain from exacerbating price volatility."<ref name="schapirosept22">{{cite web|author=Chairman Mary Schapiro ]|title=Remarks Before the Security Traders Association
|url=http://www.sec.gov/news/speech/2010/spch092210mls.htm|date=September 22, 2010}}</ref> She proposed regulation that would require high-frequency traders to stay active in volatile markets.<ref name="obligation">{{cite news |author=Jesse Westbrook |title=NYSE's Niederauer Expects More Firms to Face Expanded Market-Maker Rules
|url=http://www.bloomberg.com/news/2010-10-19/nyse-s-niederauer-expects-more-firms-to-face-u-s-market-maker-obligations.html |work=Bloomberg |date=Oct 19, 2010}}</ref> Current SEC chair ] pushed back against claims that high-frequency traders have an inherent benefit in the markets.<ref>{{cite web|last=Bartash|first=Jeffry|title=U.S. markets 'not rigged,' SEC boss says, White downplays 'flash boy' charges in new Michael Lewis book|url=http://www.marketwatch.com/story/us-markets-not-rigged-sec-boss-says-2014-04-29|work=MarketWatch|publisher=Dow Jones|accessdate=July 2, 2014|date=April 29, 2014}}</ref> SEC associate director Gregg Berman suggested that the current debate over HFT lacks perspective. In an April 2014 speech, Berman argued: "It's much more than just the automation of quotes and cancels, in spite of the seemingly exclusive fixation on this topic by much of the media and various outspoken market pundits. (...) I worry that it may be too narrowly focused and myopic."<ref>{{cite web|last=Murray|first=Timothy|title=SEC’s Berman: The Data Disputes HFT Narrative|url=http://www.waterstechnology.com/buy-side-technology/analysis/2340339/secs-berman-the-data-disputes-hft-narrative|work=WatersTechnology|publisher=waterstechnology.com|accessdate=July 2, 2014|date=April 16, 2014}}</ref>


In their joint report on the 2010 Flash Crash, the ] and the ] stated that "market makers and other liquidity providers widened their quote spreads, others reduced offered liquidity, and a significant number withdrew completely from the markets"<ref name="flashreport" /> during the flash crash.
The Chicago Federal Reserve letter of October 2012, titled "How to keep markets safe in an era of high-speed trading", reports on the results of a survey of several dozen financial industry professionals including traders, brokers, and exchanges.<ref name="chicagofed"/> It found that


Politicians, regulators, scholars, journalists and market participants have all raised concerns on both sides of the Atlantic.<ref name="bandsaw" /><ref name="goslow" /><ref name="cowboys">{{cite news |author=Chilton, Bart |title=Rein in the cyber cowboys|url=http://www.ft.com/cms/s/0/e0cf72a6-b9e1-11df-8804-00144feabdc0.html |work=] |date=Sep 6, 2010 |access-date=Sep 10, 2010|author-link=Bart Chilton}}</ref> This has led to discussion of whether high-frequency market makers should be subject to various kinds of regulations.

In a September 22, 2010, speech, SEC chairperson ] signaled that US authorities were considering the introduction of regulations targeted at HFT. She said, "high frequency trading firms have a tremendous capacity to affect the stability and integrity of the equity markets. Currently, however, high frequency trading firms are subject to very little in the way of obligations either to protect that stability by promoting reasonable price continuity in tough times, or to refrain from exacerbating price volatility."<ref name="schapirosept22">{{cite web|first= Mary |last=Schapiro |work=]|title=Remarks Before the Security Traders Association
|url=https://www.sec.gov/news/speech/2010/spch092210mls.htm|date=September 22, 2010}}</ref> She proposed regulation that would require high-frequency traders to stay active in volatile markets.<ref name="obligation">{{cite news |first=Jesse |last=Westbrook |title=NYSE's Niederauer Expects More Firms to Face Expanded Market-Maker Rules
|url=https://www.bloomberg.com/news/2010-10-19/nyse-s-niederauer-expects-more-firms-to-face-u-s-market-maker-obligations.html |work=Bloomberg |date=Oct 19, 2010}}</ref> A later SEC chair ] pushed back against claims that high-frequency traders have an inherent benefit in the markets.<ref>{{cite web|last=Bartash|first=Jeffry|title=U.S. markets 'not rigged,' SEC boss says, White downplays 'flash boy' charges in new Michael Lewis book|url=http://www.marketwatch.com/story/us-markets-not-rigged-sec-boss-says-2014-04-29|work=MarketWatch|publisher=Dow Jones|access-date=July 2, 2014|date=April 29, 2014}}</ref> SEC associate director Gregg Berman suggested that the current debate over HFT lacks perspective. In an April 2014 speech, Berman argued: "It's much more than just the automation of quotes and cancels, in spite of the seemingly exclusive fixation on this topic by much of the media and various outspoken market pundits. (...) I worry that it may be too narrowly focused and myopic."<ref>{{cite web|last=Murray|first=Timothy|title=SEC's Berman: The Data Disputes HFT Narrative|url=http://www.waterstechnology.com/buy-side-technology/analysis/2340339/secs-berman-the-data-disputes-hft-narrative|work=WatersTechnology|publisher=waterstechnology.com|access-date=July 2, 2014|date=April 16, 2014}}</ref>

The Chicago Federal Reserve letter of October 2012, titled "How to keep markets safe in an era of high-speed trading", reports on the results of a survey of several dozen financial industry professionals including traders, brokers, and exchanges.<ref name="chicagofed" /> It found that
* risk controls were poorer in high-frequency trading, because of competitive time pressure to execute trades without the more extensive safety checks normally used in slower trades. * risk controls were poorer in high-frequency trading, because of competitive time pressure to execute trades without the more extensive safety checks normally used in slower trades.
* "some firms do not have stringent processes for the development, testing, and deployment of code used in their trading algorithms." * "some firms do not have stringent processes for the development, testing, and deployment of code used in their trading algorithms."
* "out-of control algorithms were more common than anticipated prior to the study and that there were no clear patterns as to their cause." * "out-of-control algorithms were more common than anticipated prior to the study and that there were no clear patterns as to their cause."

The ], a global association of investment professionals, advocated for reforms regarding high-frequency trading,<ref name="cfa">{{Citation |title=High-Frequency Trading Investor Issues and Perspectives |url=http://www.cfainstitute.org/ethics/Documents/policy-brief-hft.pdf |publisher=CFA Institute |date=April 19, 2014 }}</ref> including:


The ], a global association of investment professionals, advocated for reforms regarding high-frequency trading,<ref name="cfa">{{Citation |title=High-Frequency Trading Investor Issues and Perspectives |url=http://www.cfainstitute.org/ethics/Documents/policy-brief-hft.pdf |publisher=CFA Institute |date=April 19, 2014 |access-date=July 14, 2014 |archive-date=July 2, 2014 |archive-url=https://web.archive.org/web/20140702060551/http://cfainstitute.org/ethics/Documents/policy-brief-hft.pdf |url-status=dead }}</ref> including:
* Promoting robust internal risk management procedures and controls over the ] and strategies employed by HFT firms. * Promoting robust internal risk management procedures and controls over the ] and strategies employed by HFT firms.
* Trading venues should disclose their fee structure to all market participants. * Trading venues should disclose their fee structure to all market participants.
Line 130: Line 148:


=== Flash trading === === Flash trading ===
Exchanges offered a type of order called a "Flash" order (on NASDAQ, it was called "Bolt" on the Bats stock exchange) that allowed an order to lock the market (post at the same price as an order on the other side of the ]) for a small amount of time (5 milliseconds). This order type was available to all participants but since HFT's adapted to the changes in market structure more quickly than others, they were able to use it to "jump the queue" and place their orders before other order types were allowed to trade at the given price. Currently, the majority of exchanges do not offer flash trading, or have discontinued it. By March 2011, the ], ], and Direct Edge exchanges had all ceased offering its Competition for Price Improvement functionality (widely referred to as "flash technology/trading").<ref name="direct">{{cite news |work=The Wall Street Journal |first=Jacob |last=Bunge|title=Direct Edge to Stop 'Flashing' Orders on Monday|url=https://www.wsj.com/articles/SB10001424052748703409304576166930877474292 |date=February 25, 2011 }}</ref><ref name="sunshine">{{Citation |last1=Skjeltorp|first1=Johannes A. |last2=Sojli |first2=Elvira |last3=Tham |first3=Wing Wah |title=Flashes of trading intent at the NASDAQ|journal=Journal of Financial and Quantitative Analysis |date=February 1, 2016|volume=51 |pages=165–196 |doi=10.1017/S0022109016000028 |hdl=1765/38217 |hdl-access=free }}</ref>
Another area of concern relates to ]. Flash trading is a form of trading in which certain market participants are allowed to see incoming orders to buy or sell securities very slightly earlier than the general market participants, typically 30 milliseconds, in exchange for a fee. This feature was introduced to allow participants like market makers the opportunity to meet or improve on the ] price to ensure incoming orders were matched at the most advantageous prices according to ].


== Violations and fines ==
According to some sources, the programs can inspect major orders as they come in and use that information to profit.<ref name="frontrunning">{{cite news |author=Ellen Brown |title=Computerized Front-Running |url=http://www.counterpunch.org/brown04232010.html |work=] |date=April 23, 2010 |accessdate=May 8, 2010}}</ref> Currently, the majority of exchanges do not offer flash trading, or have discontinued it. By March 2011, the ], ], and Direct Exchange exchanges had all ceased offering its Competition for Price Improvement functionality (widely referred to as "flash technology/trading").<ref name="direct">{{cite news |author=The Wall Street Journal |title=Direct Edge to Stop 'Flashing' Orders on Monday|url=http://online.wsj.com/article/SB10001424052748703409304576166930877474292.html |date=February 25, 2011 }}</ref><ref name="sunshine">{{Citation |last1=Skjeltorp|first1=Johannes A. |last2=Sojli |first2=Elvira |last3=Tham |first3=Wing Wah |title=Sunshine trading: Flashes of trading intent at the NASDAQ|url=http://papers.ssrn.com/sol3/papers.cfm?abstract_id=1787418 |publisher=Social Science Research Network |date=May 16, 2012}}</ref>


=== Regulation and enforcement ===
===Insider trading===
{{See also|Regulation of algorithms}}
On September 24, 2013, it was revealed that some traders are under investigation for possible ] and ]. Right after the Federal Reserve announced its newest decision, trades were registered in the Chicago futures market within two milliseconds. However, the news was released to the public in Washington D.C. at exactly 2:00 pm calibrated by atomic clock,<ref>{{cite web | url=http://www.cnbc.com/id/101056168 | title=News organizations respond to Fed lockup questions | publisher=CNBC | date=24 September 2013 | accessdate=25 September 2013 | author=Javers, Eamon}}</ref> and takes seven milliseconds to reach Chicago at the ].<ref>{{cite web | url=http://www.washingtonpost.com/blogs/wonkblog/wp/2013/09/24/traders-may-have-gotten-last-weeks-fed-news-7-milliseconds-early/ | title=Traders may have gotten last week’s Fed news 7 milliseconds early | publisher=Washington Post | date=24 September 2013 | accessdate=25 September 2013 | author=Irwin, Neil}}</ref> Contrary to claims by high-frequency trader ],<ref>{{cite web|publisher=Nanex|title=Shredding Virtu's Response with Science|url=http://www.nanex.net/aqck2/4441.html|date=September 28, 2013|accessdate=February 14, 2015}}</ref> anything faster is not physically possible. It was concluded the high-speed traders in question had to receive the ] from proprietary feed servers in Chicago that were pre-loaded with the Fed's announcement.


In March 2012, regulators fined Octeg LLC, the equities market-making unit of high-frequency trading firm ], for $450,000. Octeg violated Nasdaq rules and failed to maintain proper supervision over its stock trading activities.<ref>{{cite web |url=https://www.bloomberg.com/news/articles/2012-03-22/getco-fined-450-000-for-failing-to-supervise-equity-trading-1- |title=Getco Fined $450,000 for Failing to Supervise Equity Trading |date=March 22, 2012 |first=Nina |last=Mehta |website=Bloomberg}}</ref> The fine resulted from a request by Nasdaq OMX for regulators to investigate the activity at Octeg LLC from the day after the May 6, 2010, Flash Crash through the following December. Nasdaq determined the Getco subsidiary lacked reasonable oversight of its algo-driven high-frequency trading.<ref>{{cite web |url=http://www.wallstreetandtech.com/trading-technology/getco-slapped-with-0k-fine-for-weak-hft-oversight/d/d-id/1265856 |title=Getco Slapped With $450k Fine For Weak HFT Oversight |date=March 26, 2012 |first=Justin |last=Grant |website=Wall Street & Technology |access-date=February 15, 2015 |archive-date=February 16, 2015 |archive-url=https://web.archive.org/web/20150216015728/http://www.wallstreetandtech.com/trading-technology/getco-slapped-with-0k-fine-for-weak-hft-oversight/d/d-id/1265856 |url-status=dead }}</ref>
==Violations and fines==


In October 2013, regulators fined ] $12&nbsp;million for the trading malfunction that led to its collapse. Knight was found to have violated the SEC's market access rule, in effect since 2010 to prevent such mistakes. Regulators stated the HFT firm ignored dozens of error messages before its computers sent millions of unintended orders to the market. Knight Capital eventually merged with Getco to form ]. Knight lost over $460&nbsp;million from its trading errors in August 2012 that caused disturbance in the U.S. stock market.<ref>{{cite web |url=https://www.bloomberg.com/news/articles/2013-10-16/knight-capital-agrees-to-pay-12-million-fine-for-2012-errors |title=Knight Capital Agrees to $12 Million Settlement for 2012 Errors |date=October 16, 2013 |first=Sam |last=Mamudi |website=Bloomberg}}</ref>
===Supervisory failures===
In March 2012, regulators fined Octeg LLC, the equities market-making unit of high-frequency trading firm ], for $450,000. Octeg violated Nasdaq rules and failed to maintain proper supervision over its stock trading activities.<ref>http://www.bloomberg.com/news/articles/2012-03-22/getco-fined-450-000-for-failing-to-supervise-equity-trading-1-</ref> The fine resulted from a request by Nasdaq OMX for regulators to investigate the activity at Octeg LLC from the day after the May 6, 2010 Flash Crash through the following December. Nasdaq determined the Getco subsidiary lacked reasonable oversight of its algo-driven high-frequency trading.<ref>http://www.wallstreetandtech.com/trading-technology/getco-slapped-with-0k-fine-for-weak-hft-oversight/d/d-id/1265856</ref>


In September 2014, HFT firm Latour Trading LLC agreed to pay a SEC penalty of $16&nbsp;million. Latour is a subsidiary of New York-based high-frequency trader ]. According to the SEC's order, for at least two years Latour underestimated the amount of risk it was taking on with its trading activities. By using faulty calculations, Latour managed to buy and sell stocks without holding enough capital. At times, the Tower Research Capital subsidiary accounted for 9% of all U.S. stock trading. The SEC noted the case is the largest penalty for a violation of the ].<ref>{{cite web |url=https://www.wsj.com/articles/high-frequency-trading-firm-latour-agrees-to-pay-16-million-penalty-sec-says-1410964917 |title=High-Frequency Trading Firm Latour to Pay $16 Million SEC Penalty |date=September 17, 2014 |first=Scott |last=Patterson |website=The Wall Street Journal}}</ref>
In October 2013, regulators fined ] $12 million for the trading malfunction that led to its collapse. Knight was found to have violated the SEC's market access rule, in effect since 2010 to prevent such mistakes. Regulators stated the HFT firm ignored dozens of error messages before its computers sent millions of unintended orders to the market. Knight Capital eventually merged with Getco to form ]. Knight lost over $460 million from its trading errors in August 2012 that caused disturbance in the U.S. stock market.<ref>http://www.bloomberg.com/news/articles/2013-10-16/knight-capital-agrees-to-pay-12-million-fine-for-2012-errors</ref>


In response to increased regulation, such as by ],<ref>{{Cite web|url=https://www.finra.org/rules-guidance/key-topics/algorithmic-trading|title=Algorithmic Trading {{!}} FINRA.org|website=www.finra.org|access-date=2020-03-28}}</ref> some<ref>{{cite journal|last1=Bell|first1=Holly|title=Beyond Regulation: A Cooperative Approach to High-Frequency Trading and Financial Market Monitoring|journal=Policy Analysis|date=2015|url=http://object.cato.org/sites/cato.org/files/pubs/pdf/pa771_2.pdf|access-date=3 November 2015}}</ref><ref>{{cite web|last1=Shindler|first1=Michael|title=High Frequency Trading Needs Information, Not Regulation|url=http://www.economics21.org/commentary/high-frequency-trading-NASA-CATO-Mikelewis-regulation-hft-flashcrash-10-20-3015|website=Economics21.org|date=29 October 2015 |publisher=Manhattan Institute|access-date=3 November 2015}}</ref> have argued that instead of promoting government intervention, it would be more efficient to focus on a solution that mitigates information asymmetries among traders and their backers; others argue that regulation does not go far enough.<ref>{{Cite web|url=https://blogs.lse.ac.uk/businessreview/2018/10/08/is-eu-regulation-of-high-frequency-trading-stringent-enough/|title=Is EU regulation of high frequency trading stringent enough?|last1=October 8th|last2=Comments|first2=2018{{!}}LSE alumni{{!}}0|date=2018-10-08|website=LSE Business Review|language=en-US|access-date=2020-03-28}}</ref> In 2018, the European Union introduced the ]/] regulation.<ref>{{Cite web|url=https://www.esma.europa.eu/policy-rules/mifid-ii-and-mifir|title=MiFID II|website=www.esma.europa.eu|access-date=2020-03-28}}</ref>
In September 2014, HFT firm Latour Trading LLC agreed to pay a SEC penalty of $16 million. Latour is a subsidiary of New York-based high-frequency trader ]. According to the SEC's order, for at least two years Latour underestimated the amount of risk it was taking on with its trading activities. By using faulty calculations, Latour managed to buy and sell stocks without holding enough capital. At times, the Tower Capital subsidiary accounted for 9% of all U.S. stock trading. The SEC noted the case is the largest penalty for a violation of the ].<ref>http://www.wsj.com/articles/high-frequency-trading-firm-latour-agrees-to-pay-16-million-penalty-sec-says-1410964917</ref>


===Order types=== === Order types ===
On January 12, 2015, the SEC announced a $14 million penalty against a subsidiary of ], an exchange operator that was founded by high-frequency traders. The BATS subsidiary ] failed to properly disclose order types on its two exchanges EDGA and EDGX. These exchanges offered three variations of controversial "Hide Not Slide"<ref>http://www.bloombergview.com/articles/2015-01-13/hide-not-slide-orders-were-slippery-and-hidden</ref> orders and failed to accurately describe their priority to other orders. The SEC found the exchanges disclosed complete and accurate information about the order types "only to some members, including certain high-frequency trading firms that provided input about how the orders would operate."<ref>http://www.sec.gov/news/pressrelease/2015-2.html</ref> On January 12, 2015, the SEC announced a $14&nbsp;million penalty against a subsidiary of ], an exchange operator that was founded by high-frequency traders. The BATS subsidiary ] failed to properly disclose order types on its two exchanges EDGA and EDGX. These exchanges offered three variations of controversial "Hide Not Slide"<ref name=Bloom20150113>{{cite web |url=https://www.bloomberg.com/view/articles/2015-01-13/hide-not-slide-orders-were-slippery-and-hidden |title='Hide Not Slide' Orders Were Slippery and Hidden |date=January 12, 2015 |first=Matt |last=Levine |website=Bloomberg View}}</ref> orders and failed to accurately describe their priority to other orders. The SEC found the exchanges disclosed complete and accurate information about the order types "only to some members, including certain high-frequency trading firms that provided input about how the orders would operate".<ref>{{cite web |url=https://www.sec.gov/news/pressrelease/2015-2.html |title=SEC Charges Direct Edge Exchanges With Failing to Properly Describe Order Types |date=January 12, 2015 |website=U.S. Securities and Exchange Commission}}</ref> The complaint was made in 2011 by ].<ref name=Bloom20150113 />


Reported in January 2015, ] agreed to pay $14.4 million to settle charges of not disclosing an order type that allowed high-frequency traders to ] of other participants. The SEC stated that UBS failed to properly disclose to all subscribers of its dark pool "the existence of an order type that it pitched almost exclusively to market makers and high-frequency trading firms." UBS broke the law by accepting and ranking hundreds of millions of orders<ref>http://www.sec.gov/litigation/admin/2015/33-9697.pdf</ref> priced in increments of less than one cent, which is prohibited under Regulation NMS. The order type called PrimaryPegPlus enabled HFT firms "to place sub-penny-priced orders that jumped ahead of other orders submitted at legal, whole-penny prices."<ref>http://www.sec.gov/news/pressrelease/2015-7.html</ref> Reported in January 2015, ] agreed to pay $14.4&nbsp;million to settle charges of not disclosing an order type that allowed high-frequency traders to jump ahead of other participants. The SEC stated that UBS failed to properly disclose to all subscribers of its dark pool "the existence of an order type that it pitched almost exclusively to market makers and high-frequency trading firms". UBS broke the law by accepting and ranking hundreds of millions of orders<ref>, ''sec.gov'', January 15, 2015.</ref> priced in increments of less than one cent, which is prohibited under Regulation NMS. The order type called PrimaryPegPlus enabled HFT firms "to place sub-penny-priced orders that jumped ahead of other orders submitted at legal, whole-penny prices".<ref>{{cite web |url=https://www.sec.gov/news/pressrelease/2015-7.html |title=SEC Charges UBS Subsidiary With Disclosure Violations and Other Regulatory Failures in Operating Dark Pool |date=January 15, 2015 |website=U.S. Securities and Exchange Commission}}</ref>


===Quote stuffing=== === Quote stuffing ===
{{main|Quote stuffing}} {{Main|Quote stuffing}}
In June 2014, high-frequency trading firm ] was fined $800,000 for violations that included quote stuffing. Nasdaq's disciplinary action stated that Citadel "failed to prevent the strategy from sending millions of orders to the exchanges with few or no executions." It was pointed out that Citadel "sent multiple, periodic bursts of order messages, at 10,000 orders per second, to the exchanges. This excessive messaging activity, which involved hundreds of thousands of orders for more than 19 million shares, occurred two to three times per day."<ref>https://www.nasdaqtrader.com/content/marketregulation/NASDAQ/DisciplinaryActions/CDRG_NQ_2014.pdf</ref> In June 2014, high-frequency trading firm ] was fined $800,000 for violations that included quote stuffing. Nasdaq's disciplinary action stated that Citadel "failed to prevent the strategy from sending millions of orders to the exchanges with few or no executions". It was pointed out that Citadel "sent multiple, periodic bursts of order messages, at 10,000 orders per second, to the exchanges. This excessive messaging activity, which involved hundreds of thousands of orders for more than 19 million shares, occurred two to three times per day."<ref>, NASDAQ Stock Market LLC, June 16, 2014.</ref><ref>{{cite web | url=https://www.reuters.com/article/citadel-fine-finra-idUSL2N0QB2SE20140805 | title=Citadel fined $800,000 by U.S. regulators for trading violations | publisher=Reuters | date=5 August 2014 | access-date=22 April 2015 | last=McCrank |first= John}}</ref>


===Spoofing and layering=== === Spoofing and layering ===
{{main|Layering (finance)}} {{Main|Spoofing (finance)|Layering (finance)}}
In July 2013, it was reported that Panther Energy Trading LLC was ordered to pay $4.5 million to U.S. and U.K. regulators on charges that the firm's high-frequency trading activities manipulated ]s. Panther's computer algorithms placed and quickly canceled bids and offers in futures contracts including oil, metals, interest rates and foreign currencies, the U.S. Commodity Futures Trading Commission said.<ref>http://www.bloomberg.com/news/articles/2013-07-22/panther-coscia-fined-over-high-frequency-trading-algorithms-1-</ref> In October 2014, Panther's sole owner Michael Coscia was charged with six counts of commodities fraud and six counts of "spoofing". The indictment stated that Coscia devised a high-frequency trading strategy to create a false impression of the available liquidity in the market, "and to fraudulently induce other market participants to react to the deceptive market information he created".<ref>http://www.fbi.gov/chicago/press-releases/2014/high-frequency-trader-indicted-for-manipulating-commodities-futures-markets-in-first-federal-prosecution-for-spoofing</ref> In July 2013, it was reported that Panther Energy Trading LLC was ordered to pay $4.5&nbsp;million to U.S. and U.K. regulators on charges that the firm's high-frequency trading activities manipulated ]s. Panther's computer algorithms placed and quickly canceled bids and offers in futures contracts including oil, metals, interest rates and foreign currencies, the U.S. Commodity Futures Trading Commission said.<ref>{{cite web |url=https://www.bloomberg.com/news/articles/2013-07-22/panther-coscia-fined-over-high-frequency-trading-algorithms-1- |title=Panther, Coscia Fined Over High-Frequency Trading Algorithms |date=July 22, 2013 |first1=Lindsay |last1=Fortado |first2=Silla |last2=Brush |website=Bloomberg}}</ref> In October 2014, Panther's sole owner Michael Coscia was charged with six counts of commodities fraud and six counts of "spoofing". The indictment stated that Coscia devised a high-frequency trading strategy to create a false impression of the available liquidity in the market, "and to fraudulently induce other market participants to react to the deceptive market information he created".<ref>{{cite web |url=https://www.fbi.gov/chicago/press-releases/2014/high-frequency-trader-indicted-for-manipulating-commodities-futures-markets-in-first-federal-prosecution-for-spoofing |title=High-Frequency Trader Indicted for Manipulating Commodities Futures Markets in First Federal Prosecution for Spoofing |date=October 2, 2014 |website=Federal Bureau of Investigation}}</ref>


In November 7, 2019, it was reported that ] was ordered to pay $67.4&nbsp;million in fines to the CFTC to settle allegations that three former traders at the firm engaged in spoofing from at least March 2012 through December 2013. The New York-based firm entered into a deferred prosecution agreement with the Justice Department.<ref>{{Cite web|url=https://www.bloomberg.com/news/articles/2019-11-07/tower-research-to-pay-67-4-mln-over-spoofing-claims-cftc-says|title=High-Frequency Trading Firm Pays $67.4 Million in Record Spoofing Penalty|date=2019-11-08|website=www.bloomberg.com|access-date=2020-02-20}}</ref>
===Market manipulation===
{{main|Market manipulation}}
In October 2014, Athena Capital Research LLC was fined $1 million on price manipulation charges. The high-speed trading firm used $40 million to rig prices of thousands of stocks, including ], according to U.S. regulators. The HFT firm Athena manipulated closing prices commonly used to track stock performance with "high-powered computers, complex algorithms and rapid-fire trades," the SEC said. The regulatory action is one of the first market manipulation cases against a firm engaged in high-frequency trading. Reporting by Bloomberg noted the HFT industry is "besieged by accusations that it cheats slower investors."<ref>http://www.bloomberg.com/news/articles/2014-10-16/athena-to-pay-1-million-in-sec-hft-manipulation-case</ref>


=== Market manipulation ===
==Advanced trading platforms==
{{Main|Market manipulation}}
Advanced ] and market gateways are becoming standard tools of most types of traders, including high-frequency traders. Broker-dealers now compete on routing order flow directly, in the fastest and most efficient manner, to the line handler where it undergoes a strict set of risk filters before hitting the execution venue(s). ] (ULLDMA) is a hot topic amongst brokers and technology vendors such as ], ], and ].{{citation needed|date=December 2012}} Typically, ULLDMA systems can currently handle high amounts of volume and boast round-trip order execution speeds (from hitting "transmit order" to receiving an acknowledgment) of 10 milliseconds or less.
In October 2014, Athena Capital Research LLC was fined $1&nbsp;million on price manipulation charges. The high-speed trading firm used $40&nbsp;million to rig prices of thousands of stocks, including ], according to U.S. regulators. The HFT firm Athena manipulated closing prices commonly used to track stock performance with "high-powered computers, complex algorithms and rapid-fire trades", the SEC said. The regulatory action is one of the first market manipulation cases against a firm engaged in high-frequency trading. Reporting by Bloomberg noted the HFT industry is "besieged by accusations that it cheats slower investors".<ref>{{cite web |url=https://www.bloomberg.com/news/articles/2014-10-16/athena-to-pay-1-million-in-sec-hft-manipulation-case |title=HFT Firm Fined $1 Million for Manipulating Nasdaq |date=October 16, 2014 |first1=Keri |last1=Geiger |first2=Sam |last2=Mamudi |website=Bloomberg}}</ref>

In January 2023, ] was fined ]11.88 billion ($9.66 million) by ] for distorting stock prices with the use of immediate-or-cancel orders and by filling gaps in bid prices.<ref>{{cite web|url=https://www.reuters.com/business/finance/skorea-fines-citadel-securities-stock-algorithm-trading-breaches-2023-01-27/|title=S.Korea fines Citadel Securities for stock algorithm trading breaches|website=] }}</ref>

=== Frontrunning by a wholesaler ===

In July 2020, Citadel Securities was fined $700,000 by FINRA for trading ahead of customer orders.<ref>{{cite web|url=https://www.ft.com/content/dc3f8fb5-62e7-4774-98bb-28db801589ee|title=US regulator fines Citadel Securities over trading breach
}}</ref>

== Advanced trading platforms ==
Advanced ] and market gateways are becoming standard tools of most types of traders, including high-frequency traders. Broker-dealers now compete on routing order flow directly, in the fastest and most efficient manner, to the line handler where it undergoes a strict set of risk filters before hitting the execution venue(s). ] (ULLDMA) is a hot topic amongst brokers and technology vendors such as ], ], and ].<ref>{{Cite web|url=https://news.efinancialcareers.com/ch-en/327979/low-latency-jobs-banking|title=Morgan Stanley's latest Goldman Sachs hire shows who's really in demand now|website=efinancialcareers}}</ref><ref>{{Cite journal|last=Addison|first=Andrew|title=Low-Latency Trading in a Cloud Environment|url=https://www.bjss.com/wp-content/uploads/Low-Latency-Trading-in-a-Cloud-Environment.pdf|journal=BJSS|access-date=2020-02-09|archive-date=2020-06-25|archive-url=https://web.archive.org/web/20200625053444/https://www.bjss.com/wp-content/uploads/Low-Latency-Trading-in-a-Cloud-Environment.pdf|url-status=dead}}</ref><ref>{{Cite web|url=https://www.thetradenews.com/credit-suisse-launches-ultra-low-latency-dma-in-australia/|title=Credit Suisse launches ultra-low-latency DMA in Australia|date=November 3, 2010|website=The Trade}}</ref> Typically, ULLDMA systems can currently handle high amounts of volume and boast round-trip order execution speeds (from hitting "transmit order" to receiving an acknowledgment) of 10 milliseconds or less.


Such performance is achieved with the use of ] or even full-hardware processing of incoming ], in association with high-speed communication protocols, such as ] or ]. More specifically, some companies provide full-hardware appliances based on ] technology to obtain sub-microsecond end-to-end market data processing. Such performance is achieved with the use of ] or even full-hardware processing of incoming ], in association with high-speed communication protocols, such as ] or ]. More specifically, some companies provide full-hardware appliances based on ] technology to obtain sub-microsecond end-to-end market data processing.


] traders made efforts to curb predatory HFT strategies. ], co-founder of the ], led a team that implemented ], a securities order-management system that splits large orders into smaller sub-orders that arrive at the same time to all the exchanges through the use of intentional delays. This largely prevents information leakage in the propagation of orders that high-speed traders can take advantage of.<ref>{{cite news |title=The Wolf Hunters of Wall Street |url=http://www.nytimes.com/2014/04/06/magazine/flash-boys-michael-lewis.html |newspaper=New York Times}}</ref> ] traders made efforts to curb predatory HFT strategies. ], co-founder of the ], led a team that implemented ], a securities order-management system that splits large orders into smaller sub-orders that arrive at the same time to all the exchanges through the use of intentional delays. This largely prevents information leakage in the propagation of orders that high-speed traders can take advantage of.<ref>{{cite news |title=The Wolf Hunters of Wall Street |url=https://www.nytimes.com/2014/04/06/magazine/flash-boys-michael-lewis.html |newspaper=New York Times|date=31 March 2014 |last1=Lewis |first1=Michael }}</ref> In 2016, after having ] and others fail to prevent SEC approval of IEX's launch and having failed to sue as it had threatened to do over the SEC approval, Nasdaq launched a "speed bump" product of its own to compete with IEX. According to Nasdaq CEO ] "the regulator shouldn't have approved IEX without changing the rules that required quotes to be immediately visible". The IEX speed bump—or trading slowdown—is 350&nbsp;]s, which the SEC ruled was within the "immediately visible" parameter. The slowdown promises to ] "often ] of orders for every trade they make".<ref>Michaels, Dave, , ''Wall Street Journal'', August 14, 2016. Retrieved 2016-08-15.</ref>

Outside of US equities, several notable spot foreign exchange (FX) trading platforms—including ParFX,<ref>{{Cite web|url=http://www.automatedtrader.net/articles/exchange-views/144193/life-in-the-slow-lane|title=Life in the slow lane {{!}} Algorithmic Trading Articles & Financial Insight|website=Automated Trader|language=en|access-date=2018-06-24|archive-date=2018-06-25|archive-url=https://web.archive.org/web/20180625021809/http://www.automatedtrader.net/articles/exchange-views/144193/life-in-the-slow-lane|url-status=dead}}</ref> EBS Market,<ref>{{Cite news|url=https://www.reuters.com/article/us-markets-forex-hft-idUSBRE97M0YJ20130823|title=Exclusive: EBS take new step to rein in high-frequency traders|last=Zhou|first=Wanfeng|work=U.S.|access-date=2018-06-24|language=en-US}}</ref> and Refinitiv FXall<ref name=":0">{{Cite journal|last=Melton|first=Hayden|date=2017-09-25|title=Market mechanism refinement on a continuous limit order book venue: a case study|journal=ACM SIGecom Exchanges|volume=16|issue=1|pages=72–77|doi=10.1145/3144722.3144729|s2cid=20655509}}</ref>—have implemented their own "speed bumps" to curb or otherwise limit HFT activity. Unlike the IEX fixed length delay that retains the temporal ordering of messages as they are received by the platform, the spot FX platforms' speed bumps reorder messages so the first message received is not necessarily that processed for matching first. In short, the spot FX platforms' speed bumps seek to reduce the benefit of a participant being faster than others, as has been described in various academic papers.<ref>{{Cite journal|last=Harris|first=Larry|date=March 2013|title=What to Do about High-Frequency Trading|journal=Financial Analysts Journal|language=EN|volume=69|issue=2|pages=6–9|doi=10.2469/faj.v69.n2.6|s2cid=153935520|issn=0015-198X}}</ref><ref>{{Cite journal|last1=Budish|first1=Eric|last2=Cramton|first2=Peter|last3=Shim|first3=John|date=2015-11-01|title=The High-Frequency Trading Arms Race: Frequent Batch Auctions as a Market Design Response|journal=The Quarterly Journal of Economics|language=en|volume=130|issue=4|pages=1547–1621|doi=10.1093/qje/qjv027|issn=0033-5533|doi-access=free|hdl=1814/38326|hdl-access=free}}</ref>


==See also== == See also ==
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* ] used by ] * ] used by Goldman Sachs
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* ] * ]
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*{{section link|Outline_of_finance#Quantitative_investing}}
* ]
{{col div end}} {{Div col end}}


== References == == References ==
{{Reflist|30em}} {{Reflist}}


==External links== == External links ==
* , Report of the staffs of the CFTC and SEC to the Joint Advisory Committee on Emerging Regulatory Issues, May 18, 2010 * , Report of the staffs of the CFTC and SEC to the Joint Advisory Committee on Emerging Regulatory Issues, May 18, 2010
* ] * ]
* (2010) Andrei A. Kirilenko, Albert S. Kyle, Mehrdad Samadi, Tugkan Tuzun * (2010) Álvaro Cartea, José Penalva
* (2010) Álvaro Cartea, José Penalva * (2013) Robert Fernandez
* (2014) Andreas M. Fleckner, The Oxford Handbook of Financial Regulation
* (2011) David Easley, Marcos López de Prado, Maureen O'Hara, The Journal of Portfolio Management
* (2013) Robert Fernandez
* (2014) Andreas M. Fleckner, The Oxford Handbook of Financial Regulation


{{Hedge funds}} {{Hedge funds}}
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Latest revision as of 03:01, 18 October 2024

Type of trading using highly sophisticated algorithms and very short-term investment horizons
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High-frequency trading (HFT) is a type of algorithmic trading in finance characterized by high speeds, high turnover rates, and high order-to-trade ratios that leverages high-frequency financial data and electronic trading tools. While there is no single definition of HFT, among its key attributes are highly sophisticated algorithms, co-location, and very short-term investment horizons in trading securities. HFT uses proprietary trading strategies carried out by computers to move in and out of positions in seconds or fractions of a second.

In 2016, HFT on average initiated 10–40% of trading volume in equities, and 10–15% of volume in foreign exchange and commodities. High-frequency traders move in and out of short-term positions at high volumes and high speeds aiming to capture sometimes a fraction of a cent in profit on every trade. HFT firms do not consume significant amounts of capital, accumulate positions or hold their portfolios overnight. As a result, HFT has a potential Sharpe ratio (a measure of reward to risk) tens of times higher than traditional buy-and-hold strategies. High-frequency traders typically compete against other HFTs, rather than long-term investors. HFT firms make up the low margins with incredibly high volumes of trades, frequently numbering in the millions.

A substantial body of research argues that HFT and electronic trading pose new types of challenges to the financial system. Algorithmic and high-frequency traders were both found to have contributed to volatility in the Flash Crash of May 6, 2010, when high-frequency liquidity providers rapidly withdrew from the market. Several European countries have proposed curtailing or banning HFT due to concerns about volatility. Other complaints against HFT include the argument that some HFT firms scrape profits from investors when index funds rebalance their portfolios.

History

The rapid-fire computer-based HFT developed gradually since 1983 after NASDAQ introduced a purely electronic form of trading. At the turn of the 21st century, HFT trades had an execution time of several seconds, whereas by 2010 this had decreased to milli- and even microseconds. At that time, high-frequency trading was still a little-known topic outside the financial sector, with an article published by the New York Times in July 2009 being one of the first to bring the subject to the public's attention.

On September 2, 2013, Italy became the world's first country to introduce a tax specifically targeted at HFT, charging a levy of 0.02% on equity transactions lasting less than 0.5 seconds.

Market growth

In the early 2000s, high-frequency trading still accounted for fewer than 10% of equity orders, but this proportion was soon to begin rapid growth. According to data from the NYSE, trading volume grew by about 164% between 2005 and 2009 for which high-frequency trading might be accounted. As of the first quarter in 2009, total assets under management for hedge funds with high-frequency trading strategies were $141 billion, down about 21% from their peak before the worst of the crises, although most of the largest HFTs are actually LLCs owned by a small number of investors. The high-frequency strategy was first made popular by Renaissance Technologies who use both HFT and quantitative aspects in their trading. Many high-frequency firms are market makers and provide liquidity to the market which lowers volatility and helps narrow bid–offer spreads, making trading and investing cheaper for other market participants.

Market share

In the United States in 2009, high-frequency trading firms represented 2% of the approximately 20,000 firms operating today, but accounted for 73% of all equity orders volume. The major U.S. high-frequency trading firms include Virtu Financial, Tower Research Capital, IMC, Tradebot, Akuna Capital and Citadel LLC. The Bank of England estimates similar percentages for the 2010 UK market share, also suggesting that in Europe HFT accounts for about 40% of equity orders volume and for Asia about 5–10%, with potential for rapid growth. By value, HFT was estimated in 2010 by consultancy Tabb Group to make up 56% of equity trades in the US and 38% in Europe.

As HFT strategies become more widely used, it can be more difficult to deploy them profitably. According to an estimate from Frederi Viens of Purdue University, profits from HFT in the U.S. has been declining from an estimated peak of $5bn in 2009, to about $1.25bn in 2012.

Though the percentage of volume attributed to HFT has fallen in the equity markets, it has remained prevalent in the futures markets. According to a study in 2010 by Aite Group, about a quarter of major global futures volume came from professional high-frequency traders. In 2012, according to a study by the TABB Group, HFT accounted for more than 60 percent of all futures market volume in 2012 on U.S. exchanges.

Strategies

High-frequency trading is quantitative trading that is characterized by short portfolio holding periods. All portfolio-allocation decisions are made by computerized quantitative models. The success of high-frequency trading strategies is largely driven by their ability to simultaneously process large volumes of information, something ordinary human traders cannot do. Specific algorithms are closely guarded by their owners. Many practical algorithms are in fact quite simple arbitrages which could previously have been performed at lower frequency—competition tends to occur through who can execute them the fastest rather than who can create new breakthrough algorithms.

The common types of high-frequency trading include several types of market-making, event arbitrage, statistical arbitrage, and latency arbitrage. Most high-frequency trading strategies are not fraudulent, but instead exploit minute deviations from market equilibrium.

Market making

Main article: Market maker

According to SEC:

A "market maker" is a firm that stands ready to buy and sell a particular stock on a regular and continuous basis at a publicly quoted price. You'll most often hear about market makers in the context of the Nasdaq or other "over the counter" (OTC) markets. Market makers that stand ready to buy and sell stocks listed on an exchange, such as the New York Stock Exchange, are called "third market makers". Many OTC stocks have more than one market-maker. Market-makers generally must be ready to buy and sell at least 100 shares of a stock they make a market in. As a result, a large order from an investor may have to be filled by a number of market-makers at potentially different prices.

There can be a significant overlap between a "market maker" and "HFT firm". HFT firms characterize their business as "Market making" – a set of high-frequency trading strategies that involve placing a limit order to sell (or offer) or a buy limit order (or bid) in order to earn the bid-ask spread. By doing so, market makers provide a counterpart to incoming market orders. Although the role of market maker was traditionally fulfilled by specialist firms, this class of strategy is now implemented by a large range of investors, thanks to wide adoption of direct market access. As pointed out by empirical studies, this renewed competition among liquidity providers causes reduced effective market spreads, and therefore reduced indirect costs for final investors." A crucial distinction is that true market makers don't exit the market at their discretion and are committed not to, where HFT firms are under no similar commitment.

Some high-frequency trading firms use market making as their primary strategy. Automated Trading Desk (ATD), which was bought by Citigroup in July 2007, has been an active market maker, accounting for about 6% of total volume on both the NASDAQ and the New York Stock Exchange. In May 2016, Citadel LLC bought assets of ATD from Citigroup. Building up market making strategies typically involves precise modeling of the target market microstructure together with stochastic control techniques.

These strategies appear intimately related to the entry of new electronic venues. Academic study of Chi-X's entry into the European equity market reveals that its launch coincided with a large HFT that made markets using both the incumbent market, NYSE-Euronext, and the new market, Chi-X. The study shows that the new market provided ideal conditions for HFT market-making, low fees (i.e., rebates for quotes that led to execution) and a fast system, yet the HFT was equally active in the incumbent market to offload nonzero positions. New market entry and HFT arrival are further shown to coincide with a significant improvement in liquidity supply.

Quote stuffing

Further information: Quote stuffing

Quote stuffing is a form of abusive market manipulation that has been employed by high-frequency traders (HFT) and is subject to disciplinary action. It involves quickly entering and withdrawing a large number of orders in an attempt to flood the market creating confusion in the market and trading opportunities for high-frequency traders.

Ticker tape trading

For other uses, see Ticker tape (disambiguation).

Much information happens to be unwittingly embedded in market data, such as quotes and volumes. By observing a flow of quotes, computers are capable of extracting information that has not yet crossed the news screens. Since all quote and volume information is public, such strategies are fully compliant with all the applicable laws.

Filter trading is one of the more primitive high-frequency trading strategies that involves monitoring large amounts of stocks for significant or unusual price changes or volume activity. This includes trading on announcements, news, or other event criteria. Software would then generate a buy or sell order depending on the nature of the event being looked for.

Tick trading often aims to recognize the beginnings of large orders being placed in the market. For example, a large order from a pension fund to buy will take place over several hours or even days, and will cause a rise in price due to increased demand. An arbitrageur can try to spot this happening, buy up the security, then profit from selling back to the pension fund. This strategy has become more difficult since the introduction of dedicated trade execution companies in the 2000s which provide optimal trading for pension and other funds, specifically designed to remove the arbitrage opportunity.

Statistical arbitrage

Another set of high-frequency trading strategies are strategies that exploit predictable temporary deviations from stable statistical relationships among securities. Statistical arbitrage at high frequencies is actively used in all liquid securities, including equities, bonds, futures, foreign exchange, etc. Such strategies may also involve classical arbitrage strategies, such as covered interest rate parity in the foreign exchange market, which gives a relationship between the prices of a domestic bond, a bond denominated in a foreign currency, the spot price of the currency, and the price of a forward contract on the currency. High-frequency trading allows similar arbitrages using models of greater complexity involving many more than four securities.

The TABB Group estimates that annual aggregate profits of high-frequency arbitrage strategies exceeded US$21 billion in 2009, although the Purdue study estimates the profits for all high frequency trading were US$5 billion in 2009.

Index arbitrage

Index arbitrage exploits index tracker funds which are bound to buy and sell large volumes of securities in proportion to their changing weights in indices. If a HFT firm is able to access and process information which predicts these changes before the tracker funds do so, they can buy up securities in advance of the trackers and sell them on to them at a profit.

News-based trading

Company news in electronic text format is available from many sources including commercial providers like Bloomberg, public news websites, and Twitter feeds. Automated systems can identify company names, keywords and sometimes semantics to make news-based trades before human traders can process the news.

Low-latency strategies

A separate, "naïve" class of high-frequency trading strategies relies exclusively on ultra-low latency direct market access technology. In these strategies, computer scientists rely on speed to gain minuscule advantages in arbitraging price discrepancies in some particular security trading simultaneously on disparate markets.

Another aspect of low latency strategy has been the switch from fiber optic to microwave and shortwave technology for long distance networking. The switch to microwave transmission was because microwaves traveling in air suffer a less than 1% speed reduction compared to light traveling in a vacuum, whereas with conventional fiber optics light travels over 30% slower. Especially since 2011, companies involved in HFT have massively invested in microwaves infrastructure to transmit data across key connections such as the one between New York City and Chicago but also between London and Frankfurt, going through Belgium thanks to a network of former US army antennas. However, microwave transmission requires line-of-sight propagation, which is difficult over long distances, driving some HFT firms to use shortwave radio instead. Shortwave radio signals can be transmitted over a longer distance, but carry less information; in 2020, a hedge fund partner quoted in Bloomberg News said that shortwave bandwidth is insufficient for transmitting full order book feeds for low-latency strategies. Firms have also looked into using satellites to transmit market data.

Order properties strategies

High-frequency trading strategies may use properties derived from market data feeds to identify orders that are posted at sub-optimal prices. Such orders may offer a profit to their counterparties that high-frequency traders can try to obtain. Examples of these features include the age of an order or the sizes of displayed orders. Tracking important order properties may also allow trading strategies to have a more accurate prediction of the future price of a security.

Effects

The effects of algorithmic and high-frequency trading are the subject of ongoing research. High frequency trading causes regulatory concerns as a contributor to market fragility. Regulators claim these practices contributed to volatility in the May 6, 2010, Flash Crash and find that risk controls are much less stringent for faster trades.

Members of the financial industry generally claim high-frequency trading substantially improves market liquidity, narrows bid–offer spread, lowers volatility and makes trading and investing cheaper for other market participants.

An academic study found that, for large-cap stocks and in quiescent markets during periods of "generally rising stock prices", high-frequency trading lowers the cost of trading and increases the informativeness of quotes; however, it found "no significant effects for smaller-cap stocks", and "it remains an open question whether algorithmic trading and algorithmic liquidity supply are equally beneficial in more turbulent or declining markets. ...algorithmic liquidity suppliers may simply turn off their machines when markets spike downward."

In September 2011, market data vendor Nanex LLC published a report stating the contrary. They looked at the amount of quote traffic compared to the value of trade transactions over 4 and half years and saw a 10-fold decrease in efficiency. Nanex's owner is an outspoken detractor of high-frequency trading. Many discussions about HFT focus solely on the frequency aspect of the algorithms and not on their decision-making logic (which is typically kept secret by the companies that develop them). This makes it difficult for observers to pre-identify market scenarios where HFT will dampen or amplify price fluctuations. The growing quote traffic compared to trade value could indicate that more firms are trying to profit from cross-market arbitrage techniques that do not add significant value through increased liquidity when measured globally.

More fully automated markets such as NASDAQ, Direct Edge, and BATS, in the US, gained market share from less automated markets such as the NYSE. Economies of scale in electronic trading contributed to lowering commissions and trade processing fees, and contributed to international mergers and consolidation of financial exchanges.

The speeds of computer connections, measured in milliseconds or microseconds, have become important. Competition is developing among exchanges for the fastest processing times for completing trades. For example, in 2009 the London Stock Exchange bought a technology firm called MillenniumIT and announced plans to implement its Millennium Exchange platform which they claim has an average latency of 126 microseconds. This allows sub-millisecond resolution timestamping of the order book. Off-the-shelf software currently allows for nanoseconds resolution of timestamps using a GPS clock with 100 nanoseconds precision.

Spending on computers and software in the financial industry increased to $26.4 billion in 2005.

May 6, 2010 Flash Crash

Main article: 2010 Flash Crash

The brief but dramatic stock market crash of May 6, 2010, was initially thought to have been caused by high-frequency trading. The Dow Jones Industrial Average plunged to its largest intraday point loss, but not percentage loss, in history, only to recover much of those losses within minutes.

In the aftermath of the crash, several organizations argued that high-frequency trading was not to blame, and may even have been a major factor in minimizing and partially reversing the Flash Crash. CME Group, a large futures exchange, stated that, insofar as stock index futures traded on CME Group were concerned, its investigation had found no support for the notion that high-frequency trading was related to the crash, and actually stated it had a market stabilizing effect.

However, after almost five months of investigations, the U.S. Securities and Exchange Commission (SEC) and the Commodity Futures Trading Commission (CFTC) issued a joint report identifying the cause that set off the sequence of events leading to the Flash Crash and concluding that the actions of high-frequency trading firms contributed to volatility during the crash.

The report found that the cause was a single sale of $4.1 billion in futures contracts by a mutual fund, identified as Waddell & Reed Financial, in an aggressive attempt to hedge its investment position. The joint report also found that "high-frequency traders quickly magnified the impact of the mutual fund's selling." The joint report "portrayed a market so fragmented and fragile that a single large trade could send stocks into a sudden spiral", that a large mutual fund firm "chose to sell a big number of futures contracts using a computer program that essentially ended up wiping out available buyers in the market", that as a result high-frequency firms "were also aggressively selling the E-mini contracts", contributing to rapid price declines. The joint report also noted "HFTs began to quickly buy and then resell contracts to each other – generating a 'hot-potato' volume effect as the same positions were passed rapidly back and forth." The combined sales by Waddell and high-frequency firms quickly drove "the E-mini price down 3% in just four minutes". As prices in the futures market fell, there was a spillover into the equities markets where "the liquidity in the market evaporated because the automated systems used by most firms to keep pace with the market paused" and scaled back their trading or withdrew from the markets altogether. The joint report then noted that "Automatic computerized traders on the stock market shut down as they detected the sharp rise in buying and selling." As computerized high-frequency traders exited the stock market, the resulting lack of liquidity "...caused shares of some prominent companies like Procter & Gamble and Accenture to trade down as low as a penny or as high as $100,000". While some firms exited the market, high-frequency firms that remained in the market exacerbated price declines because they "'escalated their aggressive selling' during the downdraft". In the years following the flash crash, academic researchers and experts from the CFTC pointed to high-frequency trading as just one component of the complex current U.S. market structure that led to the events of May 6, 2010.

Granularity and accuracy

In 2015 the Paris-based regulator of the 28-nation European Union, the European Securities and Markets Authority, proposed time standards to span the EU, that would more accurately synchronize trading clocks "to within a nanosecond, or one-billionth of a second" to refine regulation of gateway-to-gateway latency time—"the speed at which trading venues acknowledge an order after receiving a trade request". Using these more detailed time-stamps, regulators would be better able to distinguish the order in which trade requests are received and executed, to identify market abuse and prevent potential manipulation of European securities markets by traders using advanced, powerful, fast computers and networks. The fastest technologies give traders an advantage over other "slower" investors as they can change prices of the securities they trade.

Risks and controversy

According to author Walter Mattli, the ability of regulators to enforce the rules has greatly declined since 2005 with the passing of the Regulation National Market System (Reg NMS) by the SEC. As a result, the NYSE's quasi monopoly role as a stock rule maker was undermined and turned the stock exchange into one of many globally operating exchanges. The market then became more fractured and granular, as did the regulatory bodies, and since stock exchanges had turned into entities also seeking to maximize profits, the one with the most lenient regulators were rewarded, and oversight over traders' activities was lost. This fragmentation has greatly benefitted HFT.

High-frequency trading comprises many different types of algorithms. Various studies reported that certain types of market-making high-frequency trading reduces volatility and does not pose a systemic risk, and lowers transaction costs for retail investors, without impacting long term investors. Other studies, summarized in Aldridge, Krawciw, 2017 find that high-frequency trading strategies known as "aggressive" erode liquidity and cause volatility.

High-frequency trading has been the subject of intense public focus and debate since the May 6, 2010, Flash Crash. At least one Nobel Prize–winning economist, Michael Spence, believes that HFT should be banned. A working paper found "the presence of high frequency trading has significantly mitigated the frequency and severity of end-of-day price dislocation".

In their joint report on the 2010 Flash Crash, the SEC and the CFTC stated that "market makers and other liquidity providers widened their quote spreads, others reduced offered liquidity, and a significant number withdrew completely from the markets" during the flash crash.

Politicians, regulators, scholars, journalists and market participants have all raised concerns on both sides of the Atlantic. This has led to discussion of whether high-frequency market makers should be subject to various kinds of regulations.

In a September 22, 2010, speech, SEC chairperson Mary Schapiro signaled that US authorities were considering the introduction of regulations targeted at HFT. She said, "high frequency trading firms have a tremendous capacity to affect the stability and integrity of the equity markets. Currently, however, high frequency trading firms are subject to very little in the way of obligations either to protect that stability by promoting reasonable price continuity in tough times, or to refrain from exacerbating price volatility." She proposed regulation that would require high-frequency traders to stay active in volatile markets. A later SEC chair Mary Jo White pushed back against claims that high-frequency traders have an inherent benefit in the markets. SEC associate director Gregg Berman suggested that the current debate over HFT lacks perspective. In an April 2014 speech, Berman argued: "It's much more than just the automation of quotes and cancels, in spite of the seemingly exclusive fixation on this topic by much of the media and various outspoken market pundits. (...) I worry that it may be too narrowly focused and myopic."

The Chicago Federal Reserve letter of October 2012, titled "How to keep markets safe in an era of high-speed trading", reports on the results of a survey of several dozen financial industry professionals including traders, brokers, and exchanges. It found that

  • risk controls were poorer in high-frequency trading, because of competitive time pressure to execute trades without the more extensive safety checks normally used in slower trades.
  • "some firms do not have stringent processes for the development, testing, and deployment of code used in their trading algorithms."
  • "out-of-control algorithms were more common than anticipated prior to the study and that there were no clear patterns as to their cause."

The CFA Institute, a global association of investment professionals, advocated for reforms regarding high-frequency trading, including:

  • Promoting robust internal risk management procedures and controls over the algorithms and strategies employed by HFT firms.
  • Trading venues should disclose their fee structure to all market participants.
  • Regulators should address market manipulation and other threats to the integrity of markets, regardless of the underlying mechanism, and not try to intervene in the trading process or to restrict certain types of trading activities.

Flash trading

Exchanges offered a type of order called a "Flash" order (on NASDAQ, it was called "Bolt" on the Bats stock exchange) that allowed an order to lock the market (post at the same price as an order on the other side of the order book) for a small amount of time (5 milliseconds). This order type was available to all participants but since HFT's adapted to the changes in market structure more quickly than others, they were able to use it to "jump the queue" and place their orders before other order types were allowed to trade at the given price. Currently, the majority of exchanges do not offer flash trading, or have discontinued it. By March 2011, the NASDAQ, BATS, and Direct Edge exchanges had all ceased offering its Competition for Price Improvement functionality (widely referred to as "flash technology/trading").

Violations and fines

Regulation and enforcement

See also: Regulation of algorithms

In March 2012, regulators fined Octeg LLC, the equities market-making unit of high-frequency trading firm Getco LLC, for $450,000. Octeg violated Nasdaq rules and failed to maintain proper supervision over its stock trading activities. The fine resulted from a request by Nasdaq OMX for regulators to investigate the activity at Octeg LLC from the day after the May 6, 2010, Flash Crash through the following December. Nasdaq determined the Getco subsidiary lacked reasonable oversight of its algo-driven high-frequency trading.

In October 2013, regulators fined Knight Capital $12 million for the trading malfunction that led to its collapse. Knight was found to have violated the SEC's market access rule, in effect since 2010 to prevent such mistakes. Regulators stated the HFT firm ignored dozens of error messages before its computers sent millions of unintended orders to the market. Knight Capital eventually merged with Getco to form KCG Holdings. Knight lost over $460 million from its trading errors in August 2012 that caused disturbance in the U.S. stock market.

In September 2014, HFT firm Latour Trading LLC agreed to pay a SEC penalty of $16 million. Latour is a subsidiary of New York-based high-frequency trader Tower Research Capital LLC. According to the SEC's order, for at least two years Latour underestimated the amount of risk it was taking on with its trading activities. By using faulty calculations, Latour managed to buy and sell stocks without holding enough capital. At times, the Tower Research Capital subsidiary accounted for 9% of all U.S. stock trading. The SEC noted the case is the largest penalty for a violation of the net capital rule.

In response to increased regulation, such as by FINRA, some have argued that instead of promoting government intervention, it would be more efficient to focus on a solution that mitigates information asymmetries among traders and their backers; others argue that regulation does not go far enough. In 2018, the European Union introduced the MiFID II/MiFIR regulation.

Order types

On January 12, 2015, the SEC announced a $14 million penalty against a subsidiary of BATS Global Markets, an exchange operator that was founded by high-frequency traders. The BATS subsidiary Direct Edge failed to properly disclose order types on its two exchanges EDGA and EDGX. These exchanges offered three variations of controversial "Hide Not Slide" orders and failed to accurately describe their priority to other orders. The SEC found the exchanges disclosed complete and accurate information about the order types "only to some members, including certain high-frequency trading firms that provided input about how the orders would operate". The complaint was made in 2011 by Haim Bodek.

Reported in January 2015, UBS agreed to pay $14.4 million to settle charges of not disclosing an order type that allowed high-frequency traders to jump ahead of other participants. The SEC stated that UBS failed to properly disclose to all subscribers of its dark pool "the existence of an order type that it pitched almost exclusively to market makers and high-frequency trading firms". UBS broke the law by accepting and ranking hundreds of millions of orders priced in increments of less than one cent, which is prohibited under Regulation NMS. The order type called PrimaryPegPlus enabled HFT firms "to place sub-penny-priced orders that jumped ahead of other orders submitted at legal, whole-penny prices".

Quote stuffing

Main article: Quote stuffing

In June 2014, high-frequency trading firm Citadel LLC was fined $800,000 for violations that included quote stuffing. Nasdaq's disciplinary action stated that Citadel "failed to prevent the strategy from sending millions of orders to the exchanges with few or no executions". It was pointed out that Citadel "sent multiple, periodic bursts of order messages, at 10,000 orders per second, to the exchanges. This excessive messaging activity, which involved hundreds of thousands of orders for more than 19 million shares, occurred two to three times per day."

Spoofing and layering

Main articles: Spoofing (finance) and Layering (finance)

In July 2013, it was reported that Panther Energy Trading LLC was ordered to pay $4.5 million to U.S. and U.K. regulators on charges that the firm's high-frequency trading activities manipulated commodity markets. Panther's computer algorithms placed and quickly canceled bids and offers in futures contracts including oil, metals, interest rates and foreign currencies, the U.S. Commodity Futures Trading Commission said. In October 2014, Panther's sole owner Michael Coscia was charged with six counts of commodities fraud and six counts of "spoofing". The indictment stated that Coscia devised a high-frequency trading strategy to create a false impression of the available liquidity in the market, "and to fraudulently induce other market participants to react to the deceptive market information he created".

In November 7, 2019, it was reported that Tower Research was ordered to pay $67.4 million in fines to the CFTC to settle allegations that three former traders at the firm engaged in spoofing from at least March 2012 through December 2013. The New York-based firm entered into a deferred prosecution agreement with the Justice Department.

Market manipulation

Main article: Market manipulation

In October 2014, Athena Capital Research LLC was fined $1 million on price manipulation charges. The high-speed trading firm used $40 million to rig prices of thousands of stocks, including eBay, according to U.S. regulators. The HFT firm Athena manipulated closing prices commonly used to track stock performance with "high-powered computers, complex algorithms and rapid-fire trades", the SEC said. The regulatory action is one of the first market manipulation cases against a firm engaged in high-frequency trading. Reporting by Bloomberg noted the HFT industry is "besieged by accusations that it cheats slower investors".

In January 2023, Citadel Securities was fined 11.88 billion ($9.66 million) by South Korea's financial regulator for distorting stock prices with the use of immediate-or-cancel orders and by filling gaps in bid prices.

Frontrunning by a wholesaler

In July 2020, Citadel Securities was fined $700,000 by FINRA for trading ahead of customer orders.

Advanced trading platforms

Advanced computerized trading platforms and market gateways are becoming standard tools of most types of traders, including high-frequency traders. Broker-dealers now compete on routing order flow directly, in the fastest and most efficient manner, to the line handler where it undergoes a strict set of risk filters before hitting the execution venue(s). Ultra-low latency direct market access (ULLDMA) is a hot topic amongst brokers and technology vendors such as Goldman Sachs, Credit Suisse, and UBS. Typically, ULLDMA systems can currently handle high amounts of volume and boast round-trip order execution speeds (from hitting "transmit order" to receiving an acknowledgment) of 10 milliseconds or less.

Such performance is achieved with the use of hardware acceleration or even full-hardware processing of incoming market data, in association with high-speed communication protocols, such as 10 Gigabit Ethernet or PCI Express. More specifically, some companies provide full-hardware appliances based on FPGA technology to obtain sub-microsecond end-to-end market data processing.

Buy side traders made efforts to curb predatory HFT strategies. Brad Katsuyama, co-founder of the IEX, led a team that implemented THOR, a securities order-management system that splits large orders into smaller sub-orders that arrive at the same time to all the exchanges through the use of intentional delays. This largely prevents information leakage in the propagation of orders that high-speed traders can take advantage of. In 2016, after having Intercontinental Exchange Inc. and others fail to prevent SEC approval of IEX's launch and having failed to sue as it had threatened to do over the SEC approval, Nasdaq launched a "speed bump" product of its own to compete with IEX. According to Nasdaq CEO Robert Greifeld "the regulator shouldn't have approved IEX without changing the rules that required quotes to be immediately visible". The IEX speed bump—or trading slowdown—is 350 microseconds, which the SEC ruled was within the "immediately visible" parameter. The slowdown promises to impede HST ability "often cancel dozens of orders for every trade they make".

Outside of US equities, several notable spot foreign exchange (FX) trading platforms—including ParFX, EBS Market, and Refinitiv FXall—have implemented their own "speed bumps" to curb or otherwise limit HFT activity. Unlike the IEX fixed length delay that retains the temporal ordering of messages as they are received by the platform, the spot FX platforms' speed bumps reorder messages so the first message received is not necessarily that processed for matching first. In short, the spot FX platforms' speed bumps seek to reduce the benefit of a participant being faster than others, as has been described in various academic papers.

See also

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