55 research outputs found
UNIFICO: Thread Migration in Heterogeneous-ISA CPUs without State Transformation
Get PDFHeterogeneous-ISA processor designs have attracted considerable research interest. However, unlike their homogeneous-ISA counterparts, explicit software support for bridging ISA heterogeneity is required. The lack of a compilation toolchain ready to support heterogeneous-ISA targets has been a major factor hindering research in this exciting emerging area. For any such compiler âgetting rightâ the mechanics involved in state transformation upon migration and doing this efficiently is of critical importance. In particular, any runtime conversion of the current program stack from one architecture to another would be prohibitively expensive. In this paper, we design and develop Unifico, a new multi-ISA compiler that generates binaries that maintain the same stack layout during their execution on either architecture. Unifico avoids the need for runtime stack transformation, thus eliminating overheads associated with ISA migration. Additional responsibilities of the Unifico compiler backend include maintenance of a uniform ABI and virtual address space across ISAs. Unifico is implemented using the LLVM compiler infrastructure, and we are currently targeting the x86-64 and ARMv8 ISAs. We have evaluated Unifico across a range of compute-intensive NAS benchmarks and show its minimal impact on overall execution time, where less than 6% overhead is introduced on average. When compared against the state-of-the-art Popcorn compiler, Unifico reduces binary size overhead from âŒ200% to âŒ10%, whilst eliminating the stack transformation overhead during ISA migration
Aggregate VM: Why Reduce or Evict VMâs Resources When You Can Borrow Them From Other Nodes?
Get PDF
- âŠ
