Building an Efficient 128-bit General Purpose Processor
Microarchitecture, RISC-V, Power (energy) efficiency
Within the processor, going to 128-bit has a significant impact. First, general purpose registers must double in size in order to implement 128-bit arithmetic to manipulate 128-bit addresses. This impacts the area and power consumption of the register file, the functional units, the bypass network, etc. This hardware overhead is paid even if a user simply ported (recompiled) a program written for a 64-bit machine to this new 128-bit machine, even if the program does not make use of the larger address space. Moreover, there exists a performance cost since pointers now occupy 128 bits, meaning that the footprint of pointers in memory (and in cache memory) is doubled.
The goal of this Ph.D. thesis is to quantify the impact of the move from 64-bit to 128-bit on central processor (CPU) performance and power consumption, and to propose microarchitectural solutions to significantly reduce this impact. The project will use the open-source RISC-V ISA , as it already features a 128-bit extension and will let us add new instructions easily.
Thesis director: Frédéric PETROT
Thesis supervisor: Arthur PERAIS
Thesis started on: October 2021
Doctoral school: MSTII