[CK] upgrade CI to rocm7.13 as default compiler (#7612)
## Motivation
Upgrade the default docker and compiler version in CI to rocm7.13.
In order to pass all the checks I had to also clean up a lot of
non-ascii characters in the source code comments and modify a couple of
tests that were affected by a new compiler logic.
## Technical Details
<!-- Explain the changes along with any relevant GitHub links. -->
## Test Plan
<!-- Explain any relevant testing done to verify this PR. -->
## Test Result
<!-- Briefly summarize test outcomes. -->
## Submission Checklist
- [ ] Look over the contributing guidelines at
https://github.com/ROCm/ROCm/blob/develop/CONTRIBUTING.md#pull-requests.
---------
Co-authored-by: Aviral Goel <aviral.goel@amd.com>
[CK Tile] Support multi-vector reads in static encoding patterns (#7528)
## Motivation
The thread-raked / warp-raked / block-raked static tile distribution
patterns in `ck_tile` silently produce wrong results when the contiguous
tile dimension is larger than `warp_size * vector_size`, because the
encoding has no per-thread iteration dimension along X.
Concretely, with `M_Tile=N_Tile=128`, `VectorSize{A,B,C}=1` in
`ConvConfigComputeV3`, the grouped convolution backward-weight example
reports about 50 percent wrong values, with errors starting exactly at
the `X0*X1 = 64` boundary. The second pass over the contiguous dim is
never performed.
This PR extends the encoding so multi-vector reads in the contiguous
tile dimension are supported, while keeping every existing call site
bit-for-bit identical.
## Technical Details
Three files changed.
### 1. `include/ck_tile/core/algorithm/static_encoding_pattern.hpp`
Add a per-thread X iteration dimension in all three raked
specializations:
- `X0 = min(warp_size, XPerTile / X1)` — threads in X dim
- `X1 = min(LargestVec, VecSize)` — vector size per access
- `X2 = XPerTile / (X0 * X1)` — number of X-iters per thread (new)
`X2` is gated with `if constexpr (X2 == 1) { old } else { new }` in both
`make_2d_static_tile_distribution()` and
`make_shuffled_2d_static_tile_distribution()`.
The new encoding places `X2` in the middle of the Ys iteration list,
which preserves reverse symmetry between the regular `<..., X2, X1>` and
shuffled `<X1, X2, ...>` encodings.
Patterns updated: `thread_raked`, `warp_raked`, `block_raked`.
### 2. `include/ck_tile/core/tensor/transpose_tile.hpp`
Added a parallel `else if constexpr (... && NDimY == 3 && ...)` branch
alongside the existing `NDimY == 2` branch. The original branch is
byte-for-byte unchanged.
Both branches dispatch to the same `transpose_tile2d_impl_in_thread`,
whose body has always been NDimY-generic (iterates with `static_for<0,
NDimY, 1>` and `number<NDimY>{}`).
### 3.
`experimental/grouped_convolution_tile_instances/generate_instances.py`
Removed the two now-obsolete skip guards in `parse_bwd_weight_instances`
and `parse_bwd_data_instances`:
```python
if m_per_block > (warp_size * a_scalar_per_vector) or n_per_block > (warp_size * b_scalar_per_vector):
print(f"Skipping instance {instance_id} with multiple warps per continous tile dim since it's not supported yet.")
continue
```
Other unrelated skips (V5 / V6 / ASYNC_V4 pipeline gating,
irregular-load shapes, scalar-per-vector > tile size) are kept
untouched.
### Compatibility
Strict. Every existing caller has `X2 == 1` and therefore hits the
original encoding path verbatim. No upstream config or pipeline behavior
changes.
## Test Plan
The grouped convolution example is the natural exerciser since
`GroupedConvUniversalPipelineAgBgCrPolicy` selects `thread_raked` for
both A and B tiles, and all three conv directions share the same
`ConvConfigComputeV3`.
For each test below we ran:
```
./build/bin/tile_example_grouped_conv_bwd_weight [-prec={fp16,bf16}]
./build/bin/tile_example_grouped_conv_fwd [-prec={fp16,bf16}]
./build/bin/tile_example_grouped_conv_bwd_data [-prec={fp16,bf16}]
```
with `ConvConfigComputeV3` tile/vector parameters tweaked to cover both
code paths:
| Test | M / N / K | VecA/B/C | A path | B path | dtype |
|------|-------------|----------|------------|----------------|-------------|
| T1 | 16/64/32 | 4/8/4 | old (X2=1) | old (X2=1) | fp16 |
| T2 | 128/128/64 | 2/2/2 | old (X2=1) | old (X2=1) | fp16 |
| T3 | 256/256/64 | 1/1/1 | old (X2=1) | new (X2=4) | fp16 |
| T5 | 256/256/64 | 1/1/1 | old (X2=1) | new (X2=4) | fp16 (3 dir)|
| T4b | 128/128/128 | 1/1/1 | new (X2=2) | new (X2=2) | fp16 + bf16 (3
dir) |
A larger T4a (256/256/128) was attempted to stress both A and B with
X2>1 on bigger tiles but was blocked by the gfx942 hardware LDS cap (128
KB > 64 KB limit), independent of this PR.
For the generator change we ran:
```
python3 generate_instances.py --mode profiler --direction all
```
and verified `Skipping instance ... with multiple warps per continous
tile dim` no longer appears (count went from non-zero to 0); other skip
categories are unchanged.
`clang-format-18` was applied to both modified `.hpp` files (matches the
repo's `.clang-format`).
## Test Result
- T1 and T2 (compat-strict, every X2 is 1, old code path): `correct`.
Confirms existing callers are unaffected.
- T3 (X2=4 on B only): `correct`. First true exercise of the new NDimY=3
encoding + transpose branch.
- T5 (T3 across `fwd` + `bwd_data` + `bwd_weight`, fp16): all 3
`correct`.
- T4b (X2>1 on both A and B, fp16 + bf16, all 3 directions): all 6 runs
`correct`.
- Generator: 0 `multiple warps per continous tile dim` skips remaining;
other skips unchanged.
Sample run output (T4b, bf16, bwd_data):
```
shape: tile_gemm_shape_128x128x128x4_1x4x1_16x16x32
pipeline: pipeline_AgBgCrCompV3_128x128x128_256_1x1x1_1x4_1x1x1_..._DoubleSmemBuffer_0
Vector size A: 1, Vector size B: 1, Vector size C: 1
0.934907 ms, 8.34683 TFlops, 34.3178 GB/s
Relative error threshold: 0.00390625 Absolute error threshold: 0.25
The CPU verification result is: correct
```
## Submission Checklist
- [x] Look over the contributing guidelines at
https://github.com/ROCm/ROCm/blob/develop/CONTRIBUTING.md#pull-requests.
---------
Co-authored-by: Cursor <cursoragent@cursor.com>
[CK_TILE] Optimize ck_tile::sequence to reduce template instantiation depth [2A] (#5028)
## Summary
### Rationale
`ck_tile::sequence` is the most fundamental metaprogramming type in
ck_tile — it underpins
tensor dimensions, strides, loop bounds, and index calculations. Six of
its metafunctions
use recursive template instantiation, producing O(N) to O(N²)
intermediate types that
the compiler must process. When these are used inside deeply nested GEMM
pipelines with
large dimension counts, the cumulative instantiation overhead becomes a
significant
contributor to frontend compile time.
Measurements on `test_gemm_pipeline_compv6` show 84,288
`InstantiateFunction` calls in
the frontend alone. Reducing template instantiation depth in these core
utilities has a
multiplicative effect because they are called from hundreds of sites.
### What changed
| Metafunction | Before | After |
|---|---|---|
| `sequence::modify` | O(N) recursive split/merge | O(1) pack expansion
|
| `sequence_gen` | O(log N) recursive binary split | O(1) via
`__make_integer_seq` |
| `uniform_sequence_gen` | Delegates to `sequence_gen` | O(1) via
`__make_integer_seq` |
| `sequence_reverse_inclusive_scan` | O(N) recursive | O(1) constexpr
for-loop + pack expansion |
| `sequence_inclusive_scan` | Computed via reverse + flip | O(1)
constexpr for-loop (unified impl) |
| `sequence_exclusive_scan` | O(N) recursive merge chain | O(1)
constexpr for-loop + pack expansion |
| `sequence_map_inverse` | O(N²) recursive modify calls | O(1) constexpr
for-loop + pack expansion |
Supporting changes:
- Portable `__type_pack_element` fallback with `__has_builtin` guard
(hipRTC-safe, no `<tuple>` dependency)
- Renamed reserved `__integer_sequence` to `integer_sequence_wrapper`
- Adopted `static_array` from develop (PR #4355) for constexpr
computation
- Unified forward and reverse inclusive scan into a single
`sequence_inclusive_scan_impl` with `bool Reverse` template parameter
- Added `sequence_inclusive_scan` struct (new public API for forward
scan direction)
- Replaced recursive `sequence_exclusive_scan` (3 template
specializations) with `sequence_exclusive_scan_impl` using the same
constexpr for-loop pattern as inclusive scan
- Rewired `exclusive_scan_sequence` and `prefix_sum_sequence` to use new
impl
- Added `CK_TILE_HOST_DEVICE` to `exclusive_scan_sequence` and
`prefix_sum_sequence` to match sibling scan function annotations
### Technical debt and housekeeping
- Unified all `namespace impl` to `namespace detail` across sequence.hpp
for consistency
- Removed dead comment block (orphaned `integer_sequence` alternative)
- Added defensive `static_assert(sizeof...(Is) > 0)` in
`sequence_map_inverse::build_inverse`
- Converted all multi-line Doxygen blocks from `///` to `/** */` per
style guide
- Corrected `constexpr static` to `static constexpr` keyword ordering in
`static_array`
- Added blank line between `#pragma once` and first `#include` in
`static_array.hpp`
- Trimmed redundant 4-line comment on `sequence_gen_helper` to a
one-liner
- Moved `sequence_gen` Doxygen comment below `namespace detail` block so
it directly precedes the struct it documents
- Added Doxygen `@brief`/`@tparam`/`@pre` documentation for
`sequence_gen` and `sequence_map_inverse` public APIs
- Added `@brief` documentation to `static_array` explaining relationship
to `ck_tile::array`
- Added scope comment at `namespace detail` openings
**Note:** `private:`/`public:` access modifier indentation is enforced
at 4 spaces by
`.clang-format`. The style guide calls for left-alignment, but the
formatter overrides
this. Requires a `.clang-format` config change to resolve — not
addressable in code.
### `static_array` hardening (from develop's PR #4355)
- Added zero-length array guard (`T elems[N > 0 ? N : 1]`)
- Added `CK_TILE_HOST_DEVICE` annotations to `operator[]` and `size()`
- Added `#include "ck_tile/core/config.hpp"` (IWYU for
`CK_TILE_HOST_DEVICE`)
### Value
Combined with the `static_ford` changes, measured impact on
`test_gemm_pipeline_compv6`:
- **Frontend: -28.9%** (InstantiateFunction: 84,288 → 69,439)
- **Backend: -13.1%** (CodeGen Functions: 3,170 → 2,203)
- **Wall-clock: -16.3%** (611.6s → 512.2s)
### Files changed (4)
- `sequence.hpp`: Metafunction optimizations, namespace unification,
documentation, style fixes
- `static_array.hpp`: Zero-length guard, `CK_TILE_HOST_DEVICE`,
documentation, style fixes
- `test_sequence.cpp`: 50 unit tests with runtime `EXPECT_EQ` assertions
(new file)
- `CMakeLists.txt`: Register new test target
## Test plan
- [x] 50 runtime unit tests covering all optimized and pre-existing
sequence APIs
- [x] Edge cases: empty sequences, single-element, larger sizes (N=8),
negative values, non-trivial init values
- [x] Both functor signatures tested (`operator()(index_t)` and
`operator()(number<I>)`)
- [x] Both scan reducers (`plus`, `multiplies`) with forward, reverse,
inclusive, and exclusive directions
- [x] Exclusive scan: sum, product, single, empty, non-zero init
- [x] Prefix sum: N+1 output verification, single, empty
- [x] Permutation round-trip verification for `sequence_map_inverse`
- [x] Full sequence public API coverage: modify, gen, uniform_gen, scans
(inclusive, exclusive, prefix sum), map_inverse, make_index_sequence,
size/sum/product, push/pop, reverse, extract, merge, arithmetic
operators, equality, transform
- [x] Portable `__type_pack_element` fallback tested implicitly (same
`at_index_t` interface)
🤖 Generated with [Claude Code](https://claude.com/claude-code)
## Submission Checklist
- [ ] Look over the contributing guidelines at
https://github.com/ROCm/ROCm/blob/develop/CONTRIBUTING.md#pull-requests.
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: Max Podkorytov <4273004+tenpercent@users.noreply.github.com>
Previously, the code used unsigned long for literals and format specifiers to represent 64-bit unsigned values. While this worked on Linux, it caused compatibility issues on Windows.
The C++ standard does not guarantee that long is 64 bits. On LP64 systems (e.g., Linux), long maps to 64-bit values, but on LLP64 systems (e.g., Windows), long maps to 32-bit values. This discrepancy led to incorrect behavior when assuming unsigned long was always 64-bit.
This commit updates all relevant literals and format specifiers to explicitly use 64-bit unsigned types, ensuring consistent behavior across platforms.
* fix: fix bug in print tile window when printing bf8/fp8 tiles
* test(print_tile_window_range): add unit tests to maintain function integrity
* fix: fp8 numerical mismatch error on gfx950 by adding DCK_TILE_USE_OCP_FP8
In #2443, a helper function was added test new print functionality, but it used auto for the function parameter types.
We need to support c++17 for downstream libraries, so we cannot use auto there. This PR replaces it witht the equivalent function template implementation.
* Add more printing to core cktile
* Revert other changes in static encoding pattern
* Refactor to using a free print() function
* Remove loops and print just the containers
* Print tuple with better formatting, fix sequence compilation
* Add some tests for print utility
* Add print utility header
* Print for static_encoding_pattern
* add buffer_view printing
* Align vector_traits
* Fix formatting
* Lower-case enum strings
Co-authored-by: Christopher Millette <63608002+cgmillette@users.noreply.github.com>
* Remove empty comment lines
* Fix test with lower-case too
* Reduce repeated code in print tests, move helper function closer to type definition, test X&Y
* Add test_print_common.hpp
* add print.hpp in core.hpp
---------
Co-authored-by: Aviral Goel <aviral.goel@amd.com>
Co-authored-by: Christopher Millette <63608002+cgmillette@users.noreply.github.com>
Co-authored-by: Adam Osewski <19374865+aosewski@users.noreply.github.com>
