LR_02_002: Support for Vector extension in Go Assembler | | | | |
LR_02_0016: Accelerate crypto/aes with hand-written assembly | | | | |
LR_02_0017: Accelerate crypto/subtle with hand-written assembly | | | | |
LR_02_0018: Accelerate hash/crc32 with hand-written assembly | | | | |
LR_02_0019: Fix unaligned memory access | | | | |
LR_02_025: Test coverage for assembler Vector intruction opcode generation | | | | |
LR_02_026: Use Vector instruction in compiler where optimal | | | | |
LR_02_027: Support for Vector Crypto extensions in Go Assembler | | | | |
LR_02_028: Test coverage for assembler Vector Crypto intruction opcode generation | | | | |
LR_02_001: Build and test Go Runtime on RISC-V | | | | |
LR_02_004: Support for hardware feature detection | | | | |
LR_02_0020: Implement GORISCV64 for compilation baseline | | | | |
LR_02_0029: Add RISC-V boards to Go upstream CI | | | | |
LR_02_023: Test coverage for assembler Bitmanip intruction opcode generation | | | | |
LR_02_024: Use Bitmanip instruction in compiler where optimal | | | | |
LR_02_0015: Support for Bitmanip extensions in assembler | | | | |
LR_02_0012: Accelerate internal/bytealg with hand-written assembly | | | | |
LR_02_021: Test coverage for assembler compressed intruction opcode generation | | | | |
LR_02_003: Support for Compressed extension in Go Assembler | | | | |
LR_02_022: Use compressed instruction in compiler where optimal | | | | |