We compare the Paraleap FPGA computer, a 64-processor hardware prototype of the PRAM-driven XMT architecture, with an Intel Core 2 Duo processor and show ...

Recent benchmarking efforts have shown that XMT can achieve consistent performance improvements when compared to modern architectures [6, 36, 5], while using a ...

Brief announcement: performance potential of an easy-to-program PRAM-on-chip prototype versus state-of-the-art processor ; Authors, Caragea GC, Saybasili AB, Wen ...

In all our tests, the Paraleap architecture surpassed the Core 2 Duo processor. The more meaningful results show speed-ups ranging between 6.3x and 13.89x in ...

We compare the Paraleap FPGA computer, a 64-processor hardware prototype of the PRAM-driven XMT architecture, with an Intel Core 2 Duo processor and show ...

Performance Potential of an Easy-to-Program PRAM-On-. Chip Prototype Versus State-of-the-Art Processor. George C. Caragea, A. Beliz Saybasili, Xingzhi Wen ...

Brief announcement: performance potential of an easy-to-program PRAM-on-chip prototype versus state-of-the-art processor. GC Caragea, AB Saybasili, X Wen, U ...

Apr 25, 2024 · Brief announcement: performance potential of an easy-to-program PRAM-on-chip prototype versus state-of-the-art processor. SPAA 2009: 163-165.

Jul 16, 2012 · Brief announcement: performance potential of an easy-to-program PRAM-on-chip prototype versus state-of-the-art processor. SPAA '09 ...

Apr 25, 2024 · Brief announcement: performance potential of an easy-to-program PRAM-on-chip prototype versus state-of-the-art processor. SPAA 2009: 163-165 ...