Title :
Trace-Based Reconfigurable Acceleration with Data Cache and External Memory Support
Author :
Cardanha Paulino, Nuno Miguel ; Canas Ferreira, Joao ; Paiva Cardoso, Joao Manuel
Author_Institution :
Fac. of Eng., Univ. of Porto, Porto, Portugal
Abstract :
This paper presents a binary acceleration approach based on extending a General Purpose Processor (GPP) with a Reconfigurable Processing Unit (RPU), both sharing an external data memory. In this approach repeating sequences of GPP instructions are migrated to the RPU. The RPU resources are selected and organized off-line using execution trace information. The RPU core is composed of Functional Units (FUs) that correspond to single CPU instructions. The FUs are arranged in stages of mutually independent operations. The RPU can enable several stages in tandem, depending on the data dependencies. External data memory accesses are handled by a configurable dual-port cache. A prototype implementation of the architecture on a Spartan-6 FPGA was validated with 12 benchmarks and achieved an overall geometric mean speedup of 1.91x.
Keywords :
cache storage; field programmable gate arrays; shared memory systems; FUs; GPP instruction migration; RPU; Spartan-6 FPGA; binary acceleration approach; configurable dual-port cache; data cache; execution trace information; external data memory accesses; external data memory sharing; external memory support; functional units; general purpose processor; reconfigurable processing unit; trace-based reconfigurable acceleration; Acceleration; Arrays; Benchmark testing; Clocks; Ports (Computers); Registers; Synchronization; acceleration; cache; co-processor; memory; reconfigurable; transparent;
Conference_Titel :
Parallel and Distributed Processing with Applications (ISPA), 2014 IEEE International Symposium on
Conference_Location :
Milan
DOI :
10.1109/ISPA.2014.29
