EP2245587A2 - Système de transaction automatique d'instruments financiers - Google Patents

Système de transaction automatique d'instruments financiers

Info

Publication number
EP2245587A2
EP2245587A2 EP09700433A EP09700433A EP2245587A2 EP 2245587 A2 EP2245587 A2 EP 2245587A2 EP 09700433 A EP09700433 A EP 09700433A EP 09700433 A EP09700433 A EP 09700433A EP 2245587 A2 EP2245587 A2 EP 2245587A2
Authority
EP
European Patent Office
Prior art keywords
bond
bonds
futures
positions
traded
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP09700433A
Other languages
German (de)
English (en)
Other versions
EP2245587A4 (fr
Inventor
Howard W. Lutnick
Michael Sweeting
Joseph C. Noviello
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BGC Partners Inc
Original Assignee
BGC Partners Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US12/014,027 external-priority patent/US20090182658A1/en
Application filed by BGC Partners Inc filed Critical BGC Partners Inc
Publication of EP2245587A2 publication Critical patent/EP2245587A2/fr
Publication of EP2245587A4 publication Critical patent/EP2245587A4/fr
Withdrawn legal-status Critical Current

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Classifications

    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q40/00Finance; Insurance; Tax strategies; Processing of corporate or income taxes
    • G06Q40/06Asset management; Financial planning or analysis

Definitions

  • This application relates to computer trading systems for financial instruments.
  • the invention features a computer network to provide redundancy for a first transaction clearing computer.
  • the first transaction clearing computer is a computer for clearing for trades for financial instruments of a first type.
  • the network includes terminals, a second server, and a transaction processor.
  • the terminals are trading stations for traders of the first type of financial instruments.
  • the second server is designed to clear trades of a second type of instrument.
  • the transaction processor is programmed to communicate network messages with the second server to effect trades in the second type of instrument over time, the messages containing data describing transactions in the second instrument having times and prices designed to create the functional effect of holding the first instrument.
  • the invention features a method, and computer apparatus for performance of the method.
  • trades are executed among traders of assets of the traded asset type, the traded asset type being a derivative of an underlying asset type.
  • traders' positions in the traded asset type are transferred into positions in the underlying asset type for a period of time, and later the positions in the underlying asset claims are transferred back into positions in the traded asset type.
  • the invention features a method, and computer apparatus for performance of the method.
  • assets of a type are traded among traders on an electronic trading system.
  • positions held by traders are transferred from the traded asset type to positions in another asset type.
  • the traders' positions are transferred back from the other asset type to the traded asset type
  • the invention features a method, and computer apparatus for performance of the method.
  • a first trade is placed with a clearing agent for delivery at a future settlement time; and a second trade opposite the first trade is placed with the clearing agent for opposite delivery at substantially the same future settlement time, thereby netting out the first trade.
  • the offset between the first and second trades is used as a synthesized financial instrument.
  • the invention features an apparatus having a processor and a memory. The memory stores representations of a plurality of positions in a first type of financial instrument.
  • the invention features a method. Trades of bond future contracts are executed on a computer-based apparatus. After a first predetermined time, a plurality of positions in bond future contracts are transferred into corresponding positions in bonds, in which each position corresponds to one bond future contract. After a second predetermined time that is after the first predetermined time, each of the positions in the bonds are transferred back into a corresponding position in a bond future contract. [0009] In general, in a seventh aspect, the invention features an apparatus having a processor and a memory. The memory stores representations of a plurality of bond future contracts, in which each futures contract defines a long position and a short position.
  • the processor is programmed to: (a) after a first predetermined time, for each bond future contract, calculate a first price of bonds based on the bond futures contract and enter, with a clearinghouse, a buy trade and a sell trade for the bonds at the first price; and (b) after a second predetermined time that is after the first predetermined time, for each of the buy trades and the sell trades, enter with the clearinghouse, a second sell trade and a second buy trade for the bonds at a second price.
  • the invention features a method, and computer apparatus for performance of the method.
  • Trades of bond future contracts are executed on a computer-based apparatus. After approximately the end of a first trading day, for each of the positions in the bond future contracts, a respective bond and a respective price for the bond is determined based on a price of the bond future contract. The position in the bond future contract is transferred into a corresponding position in the respective bonds. Approximately at the beginning of a second trading day, being the soonest trading day that is after the first trading day, for each of the positions in the bonds, a respective price of the bond and a respective price of the bond future contract are determined, and the position in the bonds is transferred back into a corresponding position in a bond future contract.
  • FIG. Ia is a diagram of entities in an automated trading system.
  • FIG. Ib is a diagram of flows and states in an automated trading system.
  • FIG. 2 is a display from an automated trading system.
  • FIG. 3 is another display from an automated trading system.
  • FIG. 4 is another display from an automated trading system.
  • FIG. 5 is another display from an automated trading system. DESCRIPTION
  • a computer network includes computers that perform functions on behalf of various parties in an electronic trading system.
  • Financial instrument transaction system 100 manages data storing customer positions 110, 112 in and/or trading of one or more types of financial instruments (e.g., bonds, bond futures contracts, interest rate swaps, other securities, or derivatives of any of the foregoing).
  • Transaction system 100 may perform processing and transmit data to cause positions 110, 112 held in a first type of financial to be converted into positions 140, 142 in a second type of financial instrument.
  • the second type of positions may be stored on a Clearinghouse computer 102 that is different than the computer 190 for clearing the first type of instrument.
  • the converting 114 of positions may occur at various times (e.g.
  • Transaction system 100 may then perform processing and transmit data to cause positions 140, 142 in financial instruments of the second type back to be converted back to positions 110, 112 in financial instruments of the first type.
  • transaction system 100 may be used to offload network traffic from servers at clearinghouse 190, the traditional clearer for the first type of financial instrument (in the example of the previous paragraph, the bond futures) in order to avoid system overloads due to insufficient bandwidth or server capacity.
  • transaction system 100 may be used to provide redundancy in case the computers at traditional clearinghouse 190 become unavailable due to server or power supply failure.
  • transaction system 100 may permit an alternative or additional trading venue for the first type of financial instruments to develop, and to use a clearer other than traditional clearinghouse 190.
  • clearing both types of instruments through Clearinghouse 102 may permit reductions in both network capacity and routing equipment, as well as in margin charges paid by customers 120, 122.
  • consolidating clearing of trades for both types of instruments through one clearinghouse 102, rather than through two, 102 and 190, may simplify relationships among the parties and processors for the transactions.
  • One of the two types of financial instruments may be a derivative of the other, for example, the first type may be bond futures contracts, and the second type may be bonds (e.g., U.S. government bonds or other government or corporate bond issues, often referred to as “cash bonds” or "physical bonds," a term of art that includes bonds held as traditional paper certificates, in electronic book entry form, etc.).
  • bonds e.g., U.S. government bonds or other government or corporate bond issues, often referred to as “cash bonds” or "physical bonds,” a term of art that includes bonds held as traditional paper certificates, in electronic book entry form, etc.
  • the conversion from the first type (e.g., the derivative) into the second type (e.g., the financial instrument underlying the derivative) is referred to as "going to sleep,” and the conversion back from the second type to the first type is referred to as "waking up.”
  • the identity of the bonds selected for the "sleep" trade 130, 132, and the prices at which the "going to sleep” and “waking up” trades are entered, may be determined so that the risks and economics of the positions in the futures contract are embodied in the underlying bonds.
  • a computer for transaction system 100 may coordinate and interconnect computers of the network that act on behalf of traders 120, 122, and one or more clearinghouses 102, 190. Acting through computers 120, 122, parties enter into long and/or short positions 110, 112 in various financial transactions. A single party 120, 122 may be enter into several trades for different financial instruments with different counterparties. As trades occur, transaction system 100 registers the trades as long or short futures positions 110, 112.
  • transaction system 100 issues messages, for example in SWIFT or FIX protocol, to other computers in the network, and updates its own records.
  • Transaction system 100 may close the futures position by way of a sell trade 134 to sell long futures position 110, and also enter 130 a "buy" trade of an amount of bonds equivalent to the notional value defined by that futures position Buy trade 130, 140 is for an amount of bonds equivalent to the notional value controlled by futures contract position 110, at T+2 (i.e., Trade date plus two trading days) settlement, and may be effected by a message from transaction system 100 to Clearinghouse computer 102.
  • Clearinghouse computer 102 may register trade 130, 140 as a long bond position 140, for T+2 settlement.
  • Clearinghouse computer 102 may be operated by a clearer (e.g., the Fixed Income Clearing Corporation division of the Depository Trust & Clearing Corporation) for subsequent settlement by the clearing agent (e.g., JPMorgan Chase or Bank of New York via the Fedwire clearance system).
  • a "T+2" buy is a trade in which the parties to the trade agree that that each party will deliver its respective obligation on the trade to the clearing agent by a certain time (e.g., 3:00 PM) two trading days after the date of the trade.
  • a certain time e.g., 3:00 PM
  • the clearing agent would effect the transfer of the cash to the seller and the instruments to the buyer Wednesday after 3:00 PM.
  • transaction system 100 causes an opposite closure of the futures position by issuing messages (e.g., in SWIFT or FIX or another protocol) that reflect a "buy” trade 136 of the futures position and also a T+2 "sell” trade for a corresponding amount of bonds to be entered with Clearinghouse computer 102 for subsequent delivery via the clearing agent.
  • messages e.g., in SWIFT or FIX or another protocol
  • transaction system 100 After transaction system 100 issues network messages to put long position 110 and short position 112 in the futures contract to sleep 140, 142, transaction system 100 transmits messages to enter "reverse" trades 150, 152 into Clearinghouse computer 102 the morning of the next trading day. For example, transaction system 100 "wakes up" long position 110 in the futures contract by entering a buy trade 154 for the futures that re-establishes that position and also sending messages over the network to Clearinghouse computer 102 to enter a T+l sell trade 150 of the bonds for long party 120.
  • transaction system 100 "wakes up" short position 122 by sending messages to initiate a sell trade 156 for the futures that re-establishes short futures position 112 and also sending messages to Clearinghouse computer 102 to enter T+l buy trade 152 of the bonds for short party 122.
  • the bond trades may quickly novate into trades that are legally contracted between each counterparty 120, 122 and Clearinghouse 102, rather than between the counterparties 120, 122 as originally traded.
  • Novation is a substitution of a new contractual obligation for an old one.
  • T+l "wake up" bond trades 150, 152 are entered the morning after the sleep trades 130, 132, and so would settle on the same day as the corresponding T+2 "sleep" trades 130, 132 of the previous trading day. Therefore, Clearinghouse computer 102 may net those bond trades 130, 132, 150, 152 so none will go to delivery via the clearing agent. Also, long positions 110 and short positions 112 in futures contracts are always matched - i.e. , for every long counterparty 120 that promises to buy under a long future, there is a short counterparty 122 who promises to sell under a short future, and the two total quantities necessarily match exactly.
  • FIG. Ib illustrates states in an embodiment.
  • two states are described, one for a long position 110 in a first instrument and one for a short position 112 in the first instrument.
  • the first time illustrates long and short positions 110, 112 for a futures contract for 1000 lots at $100,000 per lot.
  • transaction system 100 sends messages 130, 132, 134, 136 to other computers of the network to convert long position and short position 110, 112 of the futures contract into corresponding buy and sell trades 140, 142 for bonds.
  • Clearinghouse computer 102 stores long and short positions 140, 142 in bonds, subject to an agreement to reverse around the time of the market open.
  • transaction system 100 sends messages to other computers in the network to reverse the positions in the bonds through sell and buy trades 150, 152.
  • the T+l bond trade price may be adjusted to reflect the difference, if any, between the closing and opening prices of the futures contract.
  • Two futures exchanges may permit the trading of futures contracts on the same underlying product, but those contracts may not be fungible due to them being cleared by different clearinghouses.
  • U.S. Government bond futures traded on the Eurex U.S. futures exchange were not fungible with U.S. Government bond futures traded on the Chicago Board of Trade (CBOT).
  • CBOT Chicago Board of Trade
  • an entity that has a long position in the Eurex Ten Year U.S. Government bond futures contracts and also has a short position of an equivalent amount of CBOT Ten Year US Government bond futures contracts could put to sleep their Eurex U.S.
  • an Interest Rate Swap (IRS) contract is an agreement between two parties to exchange interest payments on a periodic basis on a given principal amount.
  • the IRS contract can sometimes be analogous to a bond in its coupon cash flows, but only the interest on the principal amount of the IRS is exchanged; the principal amount of the IRS contract itself is not exchanged.
  • One party to the IRS contract will pay the same interest rate determined at the start of the agreement, multiplied by the notional value of the contract.
  • the other party will pay a rate of interest which varies over time and which is determined periodically based on regularly published indices (e.g.
  • LIBOR - London Interbank Offered Rate which is an average rate of quotes from the interbank market calculated for a range of popular benchmark interbank loan maturities), multiplied by the notional value of the contract.
  • a 100 million Ten Year U.S. Dollar IRS contract (“from now to 10 years time") with a fixed rate of 4.40% may have interest payments based on the principal amount of $100 million, with one counterparty to the IRS contract paying 4.40% per annum and the other counterparty paying the 6 Month LIBOR rate as determined every six months on $100 million.
  • This exchange of payments typically occurs every six months for ten years (the maturity of that IRS contract).
  • the payment flows mimic a Ten year maturity bond bought with borrowed money and refinanced every six months for then another six months.
  • a Ten Year maturity IRS instrument can also be analogous to a Ten year fixed interest Dollar deposit that has been deposited with money borrowed and refinanced every six months for then another six months.
  • IRS trades may be slept as a bond via a T+2 sleep trade with a T+l wake up trade entered the following day, to allow large multiple portfolios of often disparate IRS trades outstanding bilaterally between counterparties to net down against each other overnight on account of being slept as one or more bonds.
  • the counterparty default exposure between IRS counterparties may be substantially reduced due to the effective netting of the IRS trades via the novating of the bond sleep trades to a Clearinghouse.
  • An IRS contract may be put to sleep as a bond when payments are due to effect those payments by means of the sleep and wakeup bond prices used.
  • the IRS contract may be slept as a bond more frequently when market movements require collateral or monies to be transferred from one counterparty to the other.
  • the IRS contract may be slept at expiry (often called maturity) or premature expiry to engineer the necessary cash payments (premature expiry of an IRS contract is often called "Rip-UP" and is whereby a previously traded IRS contract is cancelled using current market values to determine a single final cancellation payment due from one counterparty to the other to prematurely end the previously agreed cashflows).
  • Trades may be entered into Clearinghouse computer 102 in many ways. Trades may be entered as "Name-give-Up", whereby the buyer and seller to the sleep trade are made known to each other and they send their trades to Clearinghouse computer 102 directly.
  • the operator of transaction system 100 (or another entity) may also become initial counterparty to the buy and sell trades acting as principal. Alternatively, the operator of transaction system 100 (or another entity) may enter the trades into Clearinghouse computer 102 without the entity actually becoming counterparty to either trade.
  • transaction system 100 may issue network messages to put positions 110, 112 to sleep relatively infrequently, because each trade 130, 132, 150, 152 entered with Clearinghouse computer 102 incurs transaction fees.
  • transaction system 100 may store futures positions 100, 112 (e.g. futures trades) during the trading day.
  • futures positions 100, 112 e.g. futures trades
  • the counterparties' net trading positions can be calculated, and only the net position put to sleep 130, 132 as bond trades 140, 142 with Clearinghouse computer 102.
  • the counterparty default risk may lie with the operator of transaction system 100 for any positions 110, 112 not yet "slept” or effectively rolled to Clearinghouse computer 102.
  • An inherent part of the service of Clearinghouse 102 is to hold counterparty default risk by quickly novating bilateral trades between counterparties 120, 122 into trades between the counterparties 120, 122 and Clearinghouse 102, so quickly sending messages from transaction system 100 to Clearinghouse computer 102, instructing Clearinghouse computer 102 to hold the positions as bond trades 140 stored in the memory of Clearinghouse computer 102 may be desirable to effectively transfer this risk to the party whose very reason for existence is to hold such risk.
  • transferring positions 100, 112 to Clearinghouse computer 102 may an appropriate alternative.
  • Clearinghouse 102 for the underlying instrument in the example, the bonds
  • the bonds will require that their customers (counterparties to trades) post margin (initial margin to cover the risk of a newly opened position, and/or variation margin monies and/or securities to cover the mark-to-market profit or loss of a previously opened position) with Clearinghouse 102 to mitigate risk to Clearinghouse 102 of default by the customer.
  • margin initial margin to cover the risk of a newly opened position, and/or variation margin monies and/or securities to cover the mark-to-market profit or loss of a previously opened position
  • the Clearinghouse's accounting and policies for margin can also accommodate bond trades forwarded by transaction system 100, with at most relatively little change.
  • the margin required at Clearinghouse 102 for a counterparty may be reduced by new trades in financial instruments entered as a result of futures trades being "slept," due to these new bond positions netting down that counterparty's opposing bond positions already existing at Clearinghouse computer 102. Additionally, the margin positions held by the clearer for bond positions can often be offset against margin requirements for the same customer' s futures positions at other futures exchanges, reducing margin costs for the customer.
  • Transaction system 100 may from time to time make "intraday margin" requirements, typically at noon, to account for sudden market volatility and to collect and pay margin to effectively mark counterparty's positions to market intraday rather than wait for that night (often referred to as a "margin call” to pay and receive margin to and from counterparties during a trading day that has shown significant market movement).
  • "Margin calls” may be effected by network messages sent from transaction system 100 to parties' trading computers 120, 122.
  • Transaction system 100 may put futures positions 110, 112 to sleep intraday, rolling them to bond positions 140, 142 stored in the memory of Clearinghouse computer 102 to allow the operator of transaction system 100 to transfer counterparty default risk to Clearinghouse 102 and to pay and receive mark-to-market monies between the counterparties (equivalent to an intraday "margin call").
  • the trade may require a cash settlement amount (either positive or negative) in an amount that mirrors the amount of a traditional intraday margin call. In some cases the trade may even be immediately reversed to effect just that transfer of margin call monies, but via trades 130, 132, 150, 152 entered into the bond Clearinghouse.
  • the bookkeeping, and particularly the obligation to enter the "wakeup" trades may be lodged in a bankruptcy-remote special purpose entity that receives fees for performing this task. Because this entity is bankruptcy-remote from other entities, the wakeup trades will be entered even if other entities, for example market operator 100, goes bankrupt or otherwise defaults. In other cases, in the event of a default of market operator 100, the counterparties would wake up with the equivalent bond position previously novated to Clearinghouse computer 102 instead of the futures position from the close of the previous day. In some cases, a master contract between the counterparties may survive dissolution of market operator 100, so that the obligations to perform the "wakeup" trades survives.
  • bonds may be “on the run” (recently issued benchmark bonds) or “off the run” (older less liquid issues) or “general collateral” (securities that are not highly sought after in the market by borrowers; demand for general collateral is not issue specific).
  • a customer 120, 122 may designate the precise bond to be bought or sold into the sleep and wakeup transactions.
  • customer 120, 122 may designate to sell overnight a bond he/she already holds long in his/her account at Clearinghouse computer 102, or buy overnight a bond in which he/she holds a short position at Clearinghouse computer 102. This permits the two positions to be netted off against each other for purposes of computing margin required by Clearinghouse 102 while sleep trades 140, 142 are open.
  • bonds that are identified in "wakeup" transaction 150, 152 for each counterparty will be exactly the same bonds as the bonds that are identified in "sleep" transaction 130, 132, so that the two trades exactly offset each other and neither requires delivery.
  • "sleep" trade 130, 132 and “wakeup” trade 150, 152 may be for different bonds, in the event that the holder of the futures contract wishes to adjust shift his inventory from one bond to another and a subsequent amendment is agreed for the wakeup trade. This amendment may take the form of a swap trade of one bond for another.
  • Transaction system 100 may be structured so that daily "mark to market" price movement Profits and Losses (P&L) or variation margin are recognized by means of transaction pricing, differences between the buy and sell prices of trades 130, 132, 134, 136, 150, 152, 154, 156.
  • P&L Profits and Losses
  • the price for "sleep" T+2 bond trade 130, 132 will be at the prevailing market closing price for the bond, with an adjustment (positive or negative) to cause recognition of P&L for futures price movements since the last sleep or wakeup trade that caused a P&L recognition.
  • the price for wakeup trade 150, 152 of the bond may be based on the opening price of the futures contract, rather than the opening price of the bond itself.
  • the price for the "wakeup" trade may be at a the current market price or at a price calculated from the futures market opening price to cause recognition of P&L for overnight futures contract price movement.
  • the wakeup bond trade price may thus be adjusted, or intra-day put-through trades (same day buy and sellback trades) may be entered, to recognize P&L of day's futures price movements via the bond Clearinghouse, and/or to effectuate intra-day margin calls.
  • daily P&L may be collected by setting the price of trades in futures positions 134, 136.
  • the price of "sleep" futures trades 134, 136 may be set at the daily settlement price for the futures contracts, adjusted for any P&L of the day's price fluctuation.
  • the bonds transacted may have a duration near the futures contract expiry date, and in other cases, futures contracts with different expiry dates may be rolled into the same bond. Increased calendar spread to cross margin may be effected via small DVOl difference in overnight trades for each contract month.
  • trading system 100 may send messages and store data in its memory to reinstate futures positions 110, 112, by buying 154 a future for the long party, selling 156 a future for the short party.
  • Messages to effect "wakeup" bond trades 150, 152 may be sent, to transact bonds at a price adjusted to realize the P&L on overnight price fluctuations on the futures position.
  • Messages 130, 132, 150, 152 sent by transaction system 100 to transact bonds may designate parties other than the operator of transaction system 100 as principal, to reduce transaction fees.
  • a futures contract traded on transaction system 100 may be defined to require delivery of a particular bond or a choice from a basket of bonds at contract expiry, analogous to a Chicago Mercantile Exchange (CME) futures contract for treasury bonds.
  • the contracts traded on transaction system 100 may specify cash settlement, in which counterparties pay and receive monies directly according to an expiry value of the futures contract usually ascertained in reference to, but without any actual delivery of, referenced underlying financial instruments or bonds.
  • the short futures counterparty may be required to deliver a specified bond to the long futures counterparty.
  • transaction system 100 may allow for the substitution of a bond sleep trade into this final settlement process.
  • VAR Value-at-Risk
  • transaction system 100 may effect the sleep trades as "Name-give-up" whereby the opposing futures long and short counterparties are given up to each other for the purpose of the sleep trade, so that the appropriate collateral agreement can be invoked.
  • Clearinghouse computer 102 transaction fees for such trades may be reduced.
  • Counterparties may also bilaterally elect to hold the positions in "sleep" condition rather than reversing them into "awake” condition to further reduce transaction fees as the daily mark-to-market bilateral risk between the counterparties may be covered by the collateral agreements already in place and the risk may be regularly adjusted as a result of other business between the counterparties
  • This computer system may hold credit information in a database in a way does not permit anyone other than the owner of each particular datum to review it or change it, but does permit those limited queries that are necessary to identify counterparties to each other that may prefer to use bilateral collateral agreements to secure name-give-up sleep trades rather than novating to a clearinghouse.
  • the computer system's server may permit a "yes/no" query by the party seeking a trade, to confirm the eligibility of the counterparty to do the trade against the querying party's credit and other qualification information.
  • a sequence number on each order may be used by this trusted computer to identify the owner of the order to permit credit qualification by the server.
  • each order in transaction system 100 may have a tag identifying the party who entered the order, and the tag may be generated individually for each order, or otherwise be made to be anonymous, so that the tag does not reveal the identity of the owner of the order, but does identify the order sufficiently to permit the server to suggest collateral agreements may be used for positions between counterparties for sleep trades either in alternative instruments (for example short term interest rate swaps) or in the original security or futures contract traded, secured by those collateral agreements in place.
  • alternative instruments for example short term interest rate swaps
  • the futures position may be agreed between counterparties to be put to sleep as a fairly long "forward" trade (a forward trade is one whereby settlement is agreed to be a non-standard date later than the agreed market standard for usual conventional trades in an instrument) , for example, up to T+22 (Trade date plus twenty two business days), to "wake up” up to a month hence (there are often typically 22 trading days in a calendar month) , or earlier if the futures position is closed.
  • a forward trade is one whereby settlement is agreed to be a non-standard date later than the agreed market standard for usual conventional trades in an instrument
  • a position may be put to sleep as a T+22 bond trade and stay as a bond trade every day (not wake up as a futures position again) unless the futures position is closed by the counterparty, precipitating a wakeup reversal trade upon closure. If the futures position is closed before the expiration of the 22 trading days, an offsetting wakeup reversal trade may be entered at Clearinghouse computer 102, for delivery on the same day as whatever remains of the original "long sleep" trade.
  • transaction system 100 may be arranged using a financial instrument such that the "sleeping" position is reportable for financial accounting, tax accounting, debt or asset ratio covenants, Securities and Exchange Commission regulations, Commodities Futures Trading Commission regulations, and other reporting and accounting purposes as an off-balance-sheet asset, booked in a manner analogous to other off-balance-sheet futures contracts.
  • transaction system 100 may be arranged in a financial instrument so that the "sleeping" position is reportable as an on- balance-sheet item to advantageously manage counterparty risk.
  • FCM's Federal Communications Commission
  • CFTC Commodities Futures Trading Commission
  • FCM's may sleep futures trades as a series of bonds designated by operator of transaction system 100 on behalf of their customers.
  • the FCMs may elect to sleep futures trades as different instruments on behalf of their customers than when trading on behalf of their own accounts.
  • the FCM may obtain a limited power of attorney or similar consent to enter the sleep/wakeup trades on the customers' behalf.
  • the FCMs may enter the sleep/wakeup trades only on the FCM's overall net futures contract positions resulting from when their individual customer's positions are netted against each other.
  • the trades may be entered using any protocol appropriate to the transaction. Trades may be entered as "name-give-up" whereby the buyer and seller to the sleep trade are introduced to each other and send their trades to Clearinghouse computer 102 directly. Transaction system 100 may also become initial counterparty to the buy and sell trades acting as principal. Alternatively the operator of transaction system 100 may enter the trades into Clearinghouse computer 102 via an "introducing broker mechanism" whereby the trades are entered to Clearinghouse computer 102 without the operator becoming counterparty to either trade. U.K. Margin and facilities for reducing margin requirements
  • Various clearers and trading parties have arrangements for "cross margining" of offsetting positions held in different accounts. For example, if a party holds bonds long at FICC (Fixed Income Clearing Corporation, the clearer for bonds) and short futures for similar bonds at CME Clearing (Chicago Mercantile Exchange, the clearer for bond futures), the two may have an agreement that permits the two positions to be offset against each other so that the total margin required may be reduced by an amount that may be up to 75% of the value of the offsetting positions (or whatever percentage is agreed among the parties).
  • Transaction system 100 may enter cross- margining agreements with other clearers for traditional cross margining relief between futures and bonds, and/or futures to futures.
  • transaction system 100 may use a sleep as cash procedure for futures trades such that the cross margining of the bond Clearinghouse is effectively leveraged automatically.
  • Transaction system 100 may provide a facility as shown in figure 6, available throughout the trading day, to allow dealers to put their futures positions to sleep through an EFP (exchange for physical) for physical (cash) bonds of their choice on a T+2 basis, with an agreed T+l reversal the next morning as described herein.
  • EFP exchange for physical
  • This "sleeps-as-cash” facility (bonds are sometimes referred to as “cash bonds,” sometimes shortened to just “cash”), to effectively transfer positions into FICC bond positions overnight, may be provided for dealers to buy or sell specific bonds against selling or buying futures contracts, at current market levels.
  • transaction system 100 or an associated bond trading system, may list a series of bond/futures pairs so dealers looking for futures positions to be "slept as cash” in certain bonds may bid/offer for the pairings at current market spreads as indicated on the system.
  • a reserve size functionality may be useful in arranging such trades at a favorable price without showing to the marketplace the full size of the desired trades (a reserve size functionality may preferably add size to a trade once that trade has been agreed to facilitate a larger trade without initially disclosing the full nature of the counterparty's intent).
  • the current market price spread may be expressed as a traditional "basis" price using previously published conversion factors to convert a futures price into an equivalent bond price, and the number of futures contracts exchanged per million of each bond in the Exchange for Physical trade ("EFP" trade; market parlance for trades where futures are exchanged for bonds, often termed as “physical” bonds) may be controlled by a published hedge ratio that is equivalent to the DVOl of the bond divided by the DVOl of the futures to give a fair risk equivalent amount of bond and futures on the trade.
  • the DVOl of the futures may be calculated as the DVOl of the most likely bond to be delivered at futures contract expiry (the "cheapest to deliver” bond) on its most likely delivery date, then divided by its conversion factor.
  • the published conversion factor for a specific bond is mostly calculated as the price of the bond at a yield of a particular value (often 6%), calculated for the futures delivery day, as defined by a futures contract specification.
  • the facility provides a secure and cost effective way for participants to manage aggregated net positions to minimize margin requirements on transaction system 100 where their balance sheet considerations are not limiting.
  • transaction system 100 there may be synergies if transaction system 100 is hosted with, or has ready ability to cooperate with, a transaction system for the underlying or "sleep" security.
  • the relationship between two instruments that determines the market prices at which one trading position may be "slept as another" trade position in an alternative Clearinghouse venue may itself be traded between the two marketplaces.
  • the trading of the spread between a futures contract and a bond is called “basis trading" whereby opposing long and short positions of each instrument may be entered into, in order to attempt to profit on their price convergence or divergence characteristics over time.
  • Two financial instruments may be traded on the same exchange as a basis trade whereby the exchange facilitates the simultaneous trade in both instruments between contra-counterparties (e.g.
  • Counterparties may be permitted to bid and offer basis trades that set off trades in instruments from the two types against each other, for example, the derivatives against the underlying instrument, or U.S. Treasury bonds against U.S. Treasury futures. These basis trades may be bid or offered as a composite "instrument" tradable on transaction system 100 (whereby trades on that instrument would precipitate two or more trades in each of the underlying instruments), to attract contra markets. Counterparties may also permit a system to attempt to execute a basis trade between the component bond and futures components individually but substantially simultaneously.
  • Transaction system 100 may also list composite basis instruments of bonds against longer or shorter duration futures which may use a conversion factor that has been weighted according to the differences in DVOl of the component instruments to give a "basis" price reflecting the bond-to-futures difference that is less influenced by outright up or down market movements.
  • transaction system 100 may support "clip trades" or clip size orders.
  • “Clip orders” are designed to increase functionality for simultaneously executing trades between two markets.
  • “Clips” are a series of quantity levels that allow the counterparty or transaction system 100 to define specific amounts, or "clips", of an overall order to be traded.
  • the counterparty or transaction system 100 specifies a clip order ratio, and the ratio defines the clip sizes that order may be traded in.
  • a clip size order may be placed by transaction system 100 as resting futures orders on a futures exchange (that is, limit bids that are at a price at or below the prevailing market price, or limit offers at a price at or above the market, which therefore do not trade immediately but rest on the market's book waiting for a price movement in their direction) which may be left "leaning" against a linked bond order on a bond exchange or marketplace, to trade both simultaneously.
  • a futures exchange that is, limit bids that are at a price at or below the prevailing market price, or limit offers at a price at or above the market, which therefore do not trade immediately but rest on the market's book waiting for a price movement in their direction
  • the futures order is completely traded or partially traded according to its prescribed clip size the corresponding bond order is also traded substantially simultaneously in an equivalent amount.
  • transaction system 100 may in some cases cancel the remaining clip sized order if a contra order could then trade at that price level but not in the full clip size needed. For example, if a resting clip sized bid order is alone at a bid price of 101.00 for 97 contracts in clip sizes of 9.7 contracts, and a contra 101.00 sell order in any size of less than 97 lots except 10, 20, 29, 39, 49, 58, 68, 78 is entered, the clip sizes can trade but remainder cannot. Transaction system 100 may then preferably remove the remaining clip size order.
  • a further composite derivative instrument may be defined and traded, as an instrument that denotes the spread between the contract traded on transaction system 100 and another economically-similar instrument, for example, the spread between a five year equivalent bond futures contract and a ten year equivalent bond futures contract, traded on transaction system 100.
  • a derivative instrument may be referred to as a "spread" instrument.
  • the round amount tradable for this spread instrument may be set to be correspond to the minimum amount of one of the contracts (the Five year bond futures contract lot size for example) that equates to a corresponding amount of the other futures contract.
  • automated trading system technology may be used to offer a market and to trade in both futures contracts described above with paired order execution used to create linked orders.
  • a trading system's linking feature may be used to link a five year bond futures contract order and a ten year bond futures contra order into a single transaction for substantially simultaneous execution.
  • Popular or highly-liquid pairs of futures may be featured as listed spreads, for another example a 2- year/30-year futures spread in an 8 contract to 1 contract ratio.
  • automated trading system technology attempts to execute spread orders of this nature it is preferable to utilize clip sized orders to adhere to the prescribed 8:1 ratio.
  • a counterparty has positions resulting in a futures calendar spread
  • a futures calendar spread is where a counterparty has opposing long and short positions in two futures contracts that have different maturities but identical futures contract specifications, or where a composite instrument to trade such positions is listed on a futures exchange or financial instrument transaction system
  • margin relief may be given by a futures exchange whereby lower margin is required due to the almost equally offsetting nature of each position.
  • this long one contract versus short another contract "spread" position may be slept-as-cash on some proportion of the net exposure of the spread trade.
  • the linked orders may be for two different financial instruments, for example, futures contracts and bonds in offsetting amounts.
  • the two linked orders may be exact mirror images, or may be at different prices, different settlement dates, or different bond durations, to permit investors to hedge certain risks or to make money on certain predicted market movements.
  • transaction system 100 creates considerable advantages in margin reduction across similar asset classes, price convergence and economic equivalence between contracts traded on an exchange using the above-described mechanisms and other competing exchanges (offering economically similar but non- fungible contracts) may be further improved by smart order routing.
  • a customer may require that a futures order be traded on a specific exchange, or may specify that the order be preferentially routed to whichever venue has the better price, shorter routing time, or other considerations.
  • Preference factors for smart order routing may include the following:
  • Routing Price Delta (a counterparty's perceived price offset between one exchange instrument of contract versus another exchange's instrument or contract)
  • Routing Trigger a number that defines the number of increments a resting order must be within the best bid price or best offer price on the first exchange before any part of it is routed to the second exchange.
  • Routing Percentage (% of an order untraded on the first exchange when subjected to the routing trigger that the counterparty would then prefer to see routed to the second exchange)
  • Routing Delay once triggered the time delay down to milliseconds that any part of the unexecuted order should exist on the first exchange before going to second exchange
  • bonds may be borrowed from counterparties outside transaction system 100 overnight to facilitate a regular T+l sleep trade and a T+0 (same day delivery) or T+l reversal trade that would be effected via the counterparty's clearing agent (e.g. JPMorgan Chase or Bank of New York).
  • the counterparty's clearing agent e.g. JPMorgan Chase or Bank of New York. This permits the initiating sleep trades to be entered with the clearer as T+l settlement, but requires financing costs to be paid among the parties and to the lender who lends bonds into transaction system 100.

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Abstract

Système de transaction informatique permettant la gestion de représentations d'une pluralité de positions dans un premier type d'instrument financier, tel que des contrats à terme d'obligations. Le système de transaction convertit de temps à autre des positions de négociateurs dans le premier type d'instrument financier en des positions correspondantes dans un second type d'instrument financier tel que des obligations. Le système de transaction convertit par la suite chaque position dans le second type d'instrument financier en une position dans le premier type d'instrument financier.
EP09700433A 2008-01-09 2009-01-08 Système de transaction automatique d'instruments financiers Withdrawn EP2245587A4 (fr)

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US2013808P 2008-01-09 2008-01-09
US2037408P 2008-01-10 2008-01-10
US12/014,027 US20090182658A1 (en) 2008-01-14 2008-01-14 Automatic financial instrument transaction system
US2259108P 2008-01-22 2008-01-22
PCT/US2009/030449 WO2009089358A2 (fr) 2008-01-09 2009-01-08 Système de transaction automatique d'instruments financiers

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