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FPGA
2008
ACM
2008
ACM
A hardware framework for the fast generation of multiple long-period random number streams
Stochastic simulations and other scientific applications that depend on random numbers are increasingly implemented in a parallelized manner in programmable logic. High-quality pseudo-random number generators (PRNG), such as the Mersenne Twister, are often based on binary linear recurrences and have extremely long periods (more than 21024). Many software implementations of such PRNGs exist, but hardware implementations are rare. We have developed an optimized, resource-efficient parallel framework for this class of random number generators that exploits the underlying algorithm as well as FPGA-specific architectural features. The framework also incorporates fast "jump-ahead" capability for these PRNGs, allowing simultaneous, independent sub-streams to be generated in parallel by partitioning one long-period pseudorandom sequence. We demonstrate parallelized implementations of three types of PRNGs
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| Added | 26 Oct 2010 |
| Updated | 26 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | FPGA |
| Authors | Ishaan L. Dalal, Deian Stefan |
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