From 2314eca905af31f1e4565b78e2c626d422e03e28 Mon Sep 17 00:00:00 2001 From: Luke Kenneth Casson Leighton Date: Fri, 22 Jul 2022 19:09:23 +0100 Subject: [PATCH] replace curly with round braces again, stop ikiwiki doing odd things --- openpower/sv/comparison_table.mdwn | 60 +++++++++++++++--------------- 1 file changed, 30 insertions(+), 30 deletions(-) diff --git a/openpower/sv/comparison_table.mdwn b/openpower/sv/comparison_table.mdwn index c7251c538..224f12ae3 100644 --- a/openpower/sv/comparison_table.mdwn +++ b/openpower/sv/comparison_table.mdwn @@ -2,36 +2,36 @@ | ISA
name | Num
opcodes | Taxonomy /
Class | Predicate
Masks | Twin
Predication | Explicit
Vector regs | 128-bit | Bigint
capability | LDST
Fault-First | Data-dependent
Fail-first | Predicate-
Result | Matrix HW
support | |----------------|-----------------|-----------------------|----------------------|-----------------------|----------------------------|---------|------------------------|-----------------------|--------------------------------|-----------------------|-----------------------| -| SVP64 | 5 {1} | Scalable {2} | yes | yes {3} | no {4} | see {5} | yes {6} | yes {7} | yes {8} | yes {9} | yes {10} | -| VSX | 700+ | Packed SIMD | no | no | yes {11} | yes | no | no | no | no | yes {12} | -| NEON | ~250 {13} | Predicated SIMD | yes | no | yes | yes | no | no | no | no | no | -| SVE2 | ~1000 {14} | Scalable HW {15} | yes | no | yes | yes | no | yes {7} | no | no | no | -| AVX-512 {16} | ~1000s {17} | Predicated SIMD | yes | no | yes | yes | no | no | no | no | no | -| RVV {18} | ~190 | Scalable {19} | yes | no | yes | yes {20}| no | yes | no | no | no | -| Aurora SX {21} | ~200 {22} | Scalable {23} | yes | no | yes | no | no | no | no | no | no | +| SVP64 | 5 (1) | Scalable (2) | yes | yes (3) | no (4) | see (5) | yes (6) | yes (7) | yes (8) | yes (9) | yes (10) | +| VSX | 700+ | Packed SIMD | no | no | yes (11) | yes | no | no | no | no | yes (12) | +| NEON | ~250 (13) | Predicated SIMD | yes | no | yes | yes | no | no | no | no | no | +| SVE2 | ~1000 (14) | Scalable HW (15) | yes | no | yes | yes | no | yes (7) | no | no | no | +| AVX-512 (16) | ~1000s (17) | Predicated SIMD | yes | no | yes | yes | no | no | no | no | no | +| RVV (18) | ~190 | Scalable (19) | yes | no | yes | yes (20)| no | yes | no | no | no | +| Aurora SX (21) | ~200 (22) | Scalable (23) | yes | no | yes | no | no | no | no | no | no | -* {1}: plus EXT001 24-bit prefixing. See [[sv/svp64]] -* {2}: A 2-Dimensional Scalable Vector ISA with both Horizontal-First and Vertical-First Modes. See [[sv/vector_isa_comparison]] -* {3}: on specific operations. See [[opcode_regs_deduped]] for full list -* {4}: SVP64 provides the Vector register concept on top of the **Scalar** GPR, FPR and CR Fields, extended to 128 entries. -* {5}: SVP64 Vectorises Scalar instructions. It is up to the **implementor** to choose (**optionally**) whether to apply SVP64 to e.g. VSX Quad-Precision (128-bit) instructions. -* {6}: big-integer add is just `sv.adde`. Mul and divide require addition of two scalar operations -* {7} See [[sv/svp64/appendix]] and [ARM SVE Fault-First](https://alastairreid.github.io/papers/sve-ieee-micro-2017.pdf) -* {8} Based on LD/ST Fail-first, extended to data. See [[sv/svp64/appendix]] -* {9} Turns standard ops into a type of "cmp". See [[sv/svp64/appendix]] -* {10} Any non-power-of-two Matrix up to 127 FMACs. Also DCT (Lee) and FFT Full (RADIX2) Triple-loops supported. See [[sv/svp64/remap]] -* {11} VSX's Vector Registers are mis-named: they are 100% PackedSIMD. AVX-512 is not a Vector ISA either. See [Flynn's Taxonomy](https://en.wikipedia.org/wiki/Flynn%27s_taxonomy) -* {12} Power ISA v3.1 contains "Matrix Multiply Assist" (MMA) which due to PackedSIMD is restricted to RADIX2 and requires inline assembler loop-unrolling for non-power-of-two Matrix dimensions -* {13} difficult to ascertain, see [NEON/VFP](https://developer.arm.com/documentation/den0018/a/NEON-and-VFP-Instruction-Summary/List-of-all-NEON-and-VFP-instructions). +* (1): plus EXT001 24-bit prefixing. See [[sv/svp64]] +* (2): A 2-Dimensional Scalable Vector ISA with both Horizontal-First and Vertical-First Modes. See [[sv/vector_isa_comparison]] +* (3): on specific operations. See [[opcode_regs_deduped]] for full list +* (4): SVP64 provides the Vector register concept on top of the **Scalar** GPR, FPR and CR Fields, extended to 128 entries. +* (5): SVP64 Vectorises Scalar instructions. It is up to the **implementor** to choose (**optionally**) whether to apply SVP64 to e.g. VSX Quad-Precision (128-bit) instructions. +* (6): big-integer add is just `sv.adde`. Mul and divide require addition of two scalar operations +* (7) See [[sv/svp64/appendix]] and [ARM SVE Fault-First](https://alastairreid.github.io/papers/sve-ieee-micro-2017.pdf) +* (8) Based on LD/ST Fail-first, extended to data. See [[sv/svp64/appendix]] +* (9) Turns standard ops into a type of "cmp". See [[sv/svp64/appendix]] +* (10) Any non-power-of-two Matrix up to 127 FMACs. Also DCT (Lee) and FFT Full (RADIX2) Triple-loops supported. See [[sv/svp64/remap]] +* (11) VSX's Vector Registers are mis-named: they are 100% PackedSIMD. AVX-512 is not a Vector ISA either. See [Flynn's Taxonomy](https://en.wikipedia.org/wiki/Flynn%27s_taxonomy) +* (12) Power ISA v3.1 contains "Matrix Multiply Assist" (MMA) which due to PackedSIMD is restricted to RADIX2 and requires inline assembler loop-unrolling for non-power-of-two Matrix dimensions +* (13) difficult to ascertain, see [NEON/VFP](https://developer.arm.com/documentation/den0018/a/NEON-and-VFP-Instruction-Summary/List-of-all-NEON-and-VFP-instructions). Critically depends on ARM Scalar instructions -* {14} difficult to exactly ascertain, see ARM Architecture Reference Manual Supplement, DDI 0584. Critically depends on ARM Scalar instructions. -* {15}: ARM states that the Scalability is a [Silicon-partner choice](https://developer.arm.com/-/media/Arm%20Developer%20Community/PDF/102340_0001_00_en_introduction-to-sve2.pdf?revision=aae96dd2-5334-4ad3-9a47-393086a20fea). +* (14) difficult to exactly ascertain, see ARM Architecture Reference Manual Supplement, DDI 0584. Critically depends on ARM Scalar instructions. +* (15): ARM states that the Scalability is a [Silicon-partner choice](https://developer.arm.com/-/media/Arm%20Developer%20Community/PDF/102340_0001_00_en_introduction-to-sve2.pdf?revision=aae96dd2-5334-4ad3-9a47-393086a20fea). this "Scalability independence" is not entirely extended in full to the programmer although ARM requests developers to consider it so, in practice this does not happen. -* {16}: [Wikipedia](https://en.wikipedia.org/wiki/AVX-512), [Lifecycle of an instruction set](https://media.handmade-seattle.com/tom-forsyth/) including full slides -* {17}: difficult to exactly ascertain, contains subsets. Critically depends on ISA support from earlier x86 ISA subsets (several more thousand instructions). See [SIMD ISA listing](https://www.officedaytime.com/simd512e/) -* {18}: [RVV Spec](https://github.com/riscv/riscv-v-spec/blob/master/v-spec.adoc) -* {19}: Like the original Cray RVV is a truly scalable Vector ISA (Cray setvl instruction). -* {20}: like SVP64 it is up to the hardware implementor to choose whether to support 128-bit elements. -* {21}: [NEC SX Aurora](https://ftp.libre-soc.org/NEC_SX_Aurora_TSUBASA_VectorEngine-as-manual-v1.2.pdf) is based on the original Cray Vectors -* {22}: [Aurora ISA guide)(https://sxauroratsubasa.sakura.ne.jp/documents/guide/pdfs/Aurora_ISA_guide.pdf) Appendix-3 11.1 p508 -* {23}: Like the original Cray Vectors, the ISA Vector Length is independent of the underlying hardware, however Generation 1 has 256 elements per Vector register (3.2.4 p24, Aurora ISA guide) +* (16): [Wikipedia](https://en.wikipedia.org/wiki/AVX-512), [Lifecycle of an instruction set](https://media.handmade-seattle.com/tom-forsyth/) including full slides +* (17): difficult to exactly ascertain, contains subsets. Critically depends on ISA support from earlier x86 ISA subsets (several more thousand instructions). See [SIMD ISA listing](https://www.officedaytime.com/simd512e/) +* (18): [RVV Spec](https://github.com/riscv/riscv-v-spec/blob/master/v-spec.adoc) +* (19): Like the original Cray RVV is a truly scalable Vector ISA (Cray setvl instruction). +* (20): like SVP64 it is up to the hardware implementor to choose whether to support 128-bit elements. +* (21): [NEC SX Aurora](https://ftp.libre-soc.org/NEC_SX_Aurora_TSUBASA_VectorEngine-as-manual-v1.2.pdf) is based on the original Cray Vectors +* (22): [Aurora ISA guide)(https://sxauroratsubasa.sakura.ne.jp/documents/guide/pdfs/Aurora_ISA_guide.pdf) Appendix-3 11.1 p508 +* (23): Like the original Cray Vectors, the ISA Vector Length is independent of the underlying hardware, however Generation 1 has 256 elements per Vector register (3.2.4 p24, Aurora ISA guide) -- 2.30.2