Market operation through regulation of incoming order match allocation and/or dynamic resting order match allocation priorities

What is claimed is: 1. A system comprising: a match engine processor of an electronic trading system, the match engine processor characterized by an available processing resource capacity; a first processor coupled with the match engine processor, the first processor being configured to regulate an incoming flow of incoming orders for processing thereof relative to the available processing resource capacity of the match engine processor and being operative to: receive an incoming order for a transaction for an associated financial instrument from a client computer of a user; determine whether the incoming order is characterized by any of a set of order types; when the first processor has determined that the incoming order is characterized by any of the set of order types, automatically forward the incoming order to the match engine processor; when the first processor has determined that the incoming order is not characterized by any of the set of order types, determine whether an event has occurred, wherein the event comprises receipt of a feedback signal indicative of the available processing resource capacity of the match engine processor; when the first processor has determined that the incoming order is not be characterized by any of the set of order types and that the event has not occurred, the first processor being further operative to: forward the received incoming order to a first buffer stored in a non-transitory memory coupled with the first processor; and store the received incoming order in the first buffer; and when the first processor has determined that the incoming order is not characterized by any of the set of order types and that the event has occurred, the first processor being further operative to: create a second buffer in the non-transitory memory; store the incoming order in the second buffer; and automatically forward at least a subset of previously received incoming orders stored in the first buffer to the match engine processor. 2. The system of claim 1 , wherein the event further comprises one of an elapse of an interval of time, receipt of an acknowledgement from the match engine processor acknowledging receipt of previously forwarded incoming orders, or where a number of stored received incoming orders exceeds a threshold. 3. The system of claim 1 , wherein the first processor is further operative to allow a subsequently received incoming order to modify or cancel a stored received incoming order prior to a forwarding thereof to the match engine processor. 4. The system of claim 1 , wherein the match engine processor is operative to attempt to match the incoming order with at least one other previously received but unsatisfied order for a transaction counter thereto for the associated financial instrument, to at least partially satisfy one or both of the incoming order or the at least one other previously received order. 5. The system of claim 4 , wherein, when the first processor has determined that the incoming order is not characterized by any of the set of order types and that the event has not occurred, the first processor is further operative to: aggregate the received incoming order with previously received incoming orders stored in the first buffer; and store the aggregated incoming orders in the first buffer in association with data indicative of time and/or order of receipt by the first processor in an order based on when they were received. 6. The system of claim 5 , wherein the match engine processor is further operative to determine a sequence in which the match engine processor will attempt to match each of the forwarded subset of the received incoming orders, wherein the sequence is different than the order in which the aggregated incoming orders were stored in the first buffer. 7. The system of claim 1 , wherein the first processor is further operative to receive the incoming order when an arrival of the incoming order relative to another incoming order has been determined. 8. The system of claim 1 , wherein the first processor is comprised by the match engine processor. 9. The system of claim 1 , wherein the feedback signal is further indicative of an elapse of an interval of time determined by a clock edge and wherein the interval of time begins to elapse upon receipt of an incoming order subsequent to a prior elapse of the interval of time. 10. The system of claim 9 , wherein a duration of the interval of time is variable. 11. The system of claim 9 , wherein a duration of the interval of time is at least partially random. 12. A computer implemented method comprising: regulating, by a first processor from a client computer of a user, an incoming flow of incoming orders for processing thereof relative to an available processing resource capacity of a match engine processor, the regulating further comprising: receiving, by the first processor, an incoming order for a transaction for an associated financial instrument; determining, by the first processor, whether the incoming order is characterized by any of a set of order types; when the first processor has determined that the incoming order is characterized by any of the set of order types, automatically forwarding, by the first processor, the incoming order to the match engine processor of an electronic trading system; when the first processor has determined that the incoming order is not characterized by any of the set of order types, determining, by the first processor, whether an event has occurred, wherein the event comprises receipt of a feedback signal indicative of the available processing resource capacity of the match engine processor; when the first processor has determined that the incoming order is not characterized by any of the set of order types and that the event has not occurred, the computer implemented method further comprising: forwarding, by the first processor, the received incoming order to a first buffer stored in a non-transitory memory; storing, by the first processor, the incoming order in the first buffer; and when the first processor has determined that the incoming order is not characterized by any of the set of order types and that the event has occurred, the computer implemented method further comprising: creating, by the first processor, a second buffer in the non-transitory memory; and storing, by the first processor, the incoming order in the second buffer; and forwarding, automatically by the first processor, at least a subset of previously received incoming orders stored in the first buffer to the match engine processor. 13. The computer implemented method of claim 12 , wherein the event further comprises one of an elapse of an interval of time, receipt of an acknowledgement from the match engine processor acknowledging receipt of previously forwarded incoming orders, or where a number of stored received incoming orders exceeds a threshold. 14. The computer implemented method of claim 12 , further comprising allowing, by the first processor, a subsequently received incoming order to modify or cancel a stored received incoming order prior to a forwarding thereof to the match engine processor. 15. The computer implemented method of claim 12 , wherein the match engine processor is operative to attempt to match the incoming order with at least one other previously received but unsatisfied order for a transaction counter thereto for the associated financial instrument, to at least partially satisfy one or both of the incoming order or the at least one other previously received order. 16. The computer implemented method of claim 15 , fur