A resource-shared VLIW processor for low-power on-chip multiprocessing in the nanometer era

We propose a low-power resource-shared VLIW processor (RSVP) for future leaky nanometer process technologies. It consists of several single-way independent processor units (IPUs) that share parallel processor resources. Each IPU works as a variable-way VLIW processor sharing the parallel resources according to priorities of given tasks. RSVP allocates shared parallel resources to the IPUs cycle by cycle. It can minimize the number of NON that is wasting power. The performance per power (P-3) of a 4-parallel 4-way RSVP that corresponds to four 4-way VLIWs is 3.7% better than a conventional 4-parallel 4-way VLIW multiprocessor in the current 90 nm process. We estimate that the RSVP achieves 36% less leakage power and 28% better P-3 in the future 25 nm process. We have fabricated an RSVP test chip that contains two IPU and a shared resource equivalent to two 2way VLIWs in a 180 nm process. It is functional at 100 MHz clock speed and its power is 130 mW.