Title :
Automatic multithreaded pipeline synthesis from transactional datapath specifications
Author :
Nurvitadhi, Eriko ; Hoe, James C. ; Lu, Shih-Lien L. ; Kam, Timothy
Author_Institution :
Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
We present a technique to automatically synthesize a multithreaded in-order pipeline from a high-level unpipelined datapath specification. This work extends the previously proposed transactional specification (T-spec) and synthesis technology (T-piper). The technique not only works with instruction processors but also flexible enough to accept any sequential datapath. It maintains previously proposed non-threaded pipeline features and is enhanced with multithreading features. We report a design space exploration study of 32 multithreaded x86 processor pipelines, all synthesized from a single T-spec.
Keywords :
formal specification; multi-threading; pipeline processing; transaction processing; T-piper; T-spec; automatic multithreaded pipeline synthesis; high-level unpipelined datapath specification; instruction processors; multithreaded in-order pipeline; multithreaded x86 processor pipelines; nonthreaded pipeline features; sequential datapath; synthesis technology; transactional datapath specifications; transactional specification; Field programmable gate arrays; Hardware; Instruction sets; Multithreading; Pipeline processing; Processor scheduling; Prototypes; Space exploration; Space technology; Yarn; Datapath specification; automatic pipelining; design exploration of x86 processor pipelines; hardware synthesis; multithreading;
Conference_Titel :
Design Automation Conference (DAC), 2010 47th ACM/IEEE
Print_ISBN :
978-1-4244-6677-1
