amd-mori-nightly 1.1.1.dev20260521

Modular RDMA Interface — GPU communication library for P2P, RDMA/IBGDA, and SDMA

MORI

News

• [2026/02] 🔥 MORI powers AMD's WideEP and PD disaggregation in SemiAnalysis InferenceX v2 benchmark (PR, InferenceX, blog).
• [2026/01] 🔥 MORI-EP and MORI-IO integrated into SGLang and vLLM for MoE Expert Parallelism and PD Disaggregation on AMD GPUs (sglang & MORI-EP, sglang & MORI-IO, vllm & MORI-EP, vllm & MORI-IO).
• [2025/12] MORI adds support for AMD's AINIC (Pollara) with SOTA performance (AINIC & MORI-EP, AINIC & MORI-IO).
• [2025/09] MORI-EP now seamlessly scales to 64 GPUs with SOTA performance (multiple optimizations, multi-QP support, low-latency kernel).
• [2025/09] MORI adds Broadcom BNXT (Thor2) IBGDA support (PR).

Introduction

MORI (Modular RDMA Interface) is a bottom-up, modular, and composable framework for building high-performance communication applications with a strong focus on RDMA + GPU integration. Inspired by the role of MLIR in compiler infrastructure, MORI provides reusable and extensible building blocks that make it easier for developers to adopt advanced techniques such as IBGDA (Infiniband GPUDirect Async) and GDS (GPUDirect Storage).

To help developers get started quickly, MORI also includes a suite of optimized libraries—MORI-EP (MoE dispatch & combine kernels), MORI-IO (p2p communication for KVCache transfer), and MORI-CCL (collective communication)—that deliver out-of-the-box performance, with support for AMD Pensando DSC, Broadcom Thor2, and NVIDIA Mellanox ConnectX-7 NICs.

Features summary

• Applications
  • MORI-EP: intra and inter-node dispatch/combine kernels with SOTA performance.
  • MORI-IO: point-to-point communication library with ultra-low overhead
  • MORI-CCL: lightweight and flexible collective communication library designed for highly customized use cases such as latency-sensitive or resource-constrained environment
  • MORI-UMBP: unified memory & bandwidth pool with tiered storage and distributed key-value access for scalable memory management
• Framework
  • High-performance building blocks for IBGDA / P2P and more​
  • Modular & composable components for developing communication applications, such as transport management, topology detection and etc.
  • Open-Shmem-style APIs
  • C++ and Python level APIs

Documentation

Topic	Description	Guide
MORI-EP	Dispatch/combine API, kernel types, configuration, usage examples	EP Guide
MORI-SHMEM	Symmetric memory APIs, initialization, memory management	Shmem Guide
MORI-IR	Device bitcode integration for Triton and other GPU kernel frameworks	IR Guide
MORI-IO	P2P communication concepts, engine/backend/session design	IO Guide
MORI-VIZ	Warp-level kernel profiler with Perfetto integration	Profiler

Benchmarks

MORI-EP

Benchmark on DeepSeek V3 model configurations:

Bandwidth (4096 tokens, 7168 hidden, top-8 experts, FP8 dispatch + BF16 combine)

Hardware	Kernels	Dispatch XGMI	Dispatch RDMA	Combine XGMI	Combine RDMA
MI300X + CX7	EP8	307 GB/s	x	330 GB/s	x
	EP16-V1	171 GB/s	52 GB/s	219 GB/s	67 GB/s
	EP32-V1	103 GB/s*	57 GB/s*	91 GB/s*	50 GB/s*
MI355X + AINIC	EP8	345 GB/s	x	420 GB/s	x
	EP16-V1	179 GB/s	54 GB/s	234 GB/s	71 GB/s
	EP32-V1	85 GB/s	46 GB/s	110 GB/s	61 GB/s

Latency (128 tokens, 7168 hidden, top-8 experts, FP8 dispatch + BF16 combine)

Hardware	Kernels	Dispatch Latency	Dispatch BW	Combine Latency	Combine BW
MI300X + CX7	EP8	35 us	134 GB/s	47 us	204 GB/s
	EP16-V1-LL	76 us	96 GB/s	122 us	121 GB/s
	EP32-V1-LL	157 us*	48 GB/s*	280 us*	55 GB/s*
MI355X + AINIC	EP8	31 us	142 GB/s	36 us	276 GB/s
	EP16-V1-LL	84 us	87 GB/s	108 us	139 GB/s
	EP32-V1-LL	152 us	45 GB/s	187 us	76 GB/s

* Stale data from previous kernel version; updated numbers pending re-benchmarking.

MORI-IO

NOTE: This is the preview version of MORI-IO benchmark performance.

GPU Direct RDMA READ, pairwise, 128 consecutive transfers, 1 GPU, MI300X + Thor2:

+--------------------------------------------------------------------------------------------------------+
|                                            Initiator Rank 0                                            |
+-------------+-----------+----------------+---------------+---------------+--------------+--------------+
| MsgSize (B) | BatchSize | TotalSize (MB) | Max BW (GB/s) | Avg Bw (GB/s) | Min Lat (us) | Avg Lat (us) |
+-------------+-----------+----------------+---------------+---------------+--------------+--------------+
|      8      |    128    |      0.00      |      0.03     |      0.03     |    33.38     |    36.33     |
|      16     |    128    |      0.00      |      0.06     |      0.06     |    34.09     |    36.35     |
|      32     |    128    |      0.00      |      0.12     |      0.11     |    34.57     |    36.33     |
|      64     |    128    |      0.01      |      0.24     |      0.23     |    33.62     |    36.33     |
|     128     |    128    |      0.02      |      0.49     |      0.45     |    33.62     |    36.49     |
|     256     |    128    |      0.03      |      0.94     |      0.89     |    34.81     |    36.99     |
|     512     |    128    |      0.07      |      1.86     |      1.77     |    35.29     |    37.01     |
|     1024    |    128    |      0.13      |      3.84     |      3.53     |    34.09     |    37.09     |
|     2048    |    128    |      0.26      |      7.33     |      6.96     |    35.76     |    37.65     |
|     4096    |    128    |      0.52      |     12.94     |     12.46     |    40.53     |    42.09     |
|     8192    |    128    |      1.05      |     20.75     |     20.12     |    50.54     |    52.11     |
|    16384    |    128    |      2.10      |     29.03     |     28.33     |    72.24     |    74.02     |
|    32768    |    128    |      4.19      |     36.50     |     35.91     |    114.92    |    116.81    |
|    65536    |    128    |      8.39      |     41.74     |     41.39     |    200.99    |    202.70    |
|    131072   |    128    |     16.78      |     45.14     |     44.85     |    371.69    |    374.10    |
|    262144   |    128    |     33.55      |     46.93     |     46.76     |    715.02    |    717.56    |
|    524288   |    128    |     67.11      |     47.94     |     47.81     |   1399.99    |   1403.64    |
|   1048576   |    128    |     134.22     |     48.44     |     48.32     |   2770.90    |   2777.76    |
+-------------+-----------+----------------+---------------+---------------+--------------+--------------+

Hardware Support Matrix

GPU

	MORI-EP	MORI-IO	MORI-SHMEM
MI308X	✅	✅	✅
MI300X	✅	✅	✅
MI325X	✅	✅	✅
MI355X	✅	✅	✅
MI450X	🚧	🚧	🚧

NIC

	MORI-EP	MORI-IO	MORI-SHMEM
Pollara	✅	✅	✅
CX7	✅	✅	✅
Thor2	✅	✅	✅
Volcano	🚧	🚧	🚧

✅ Supported   🚧 Under Development

Installation

Prerequisites

• ROCm >= 6.4 (hipcc needed at runtime for JIT kernel compilation, not at install time)
• System packages: libpci-dev (see Dockerfile.dev)
• Optional: libopenmpi-dev, openmpi-bin — only needed when building C++ examples (BUILD_EXAMPLES=ON) or enabling MPI bootstrap (MORI_WITH_MPI=ON)

Or build docker image with:

cd mori && docker build -t rocm/mori:dev -f docker/Dockerfile.dev .

IBGDA NIC support (optional, for GPU-direct RDMA — auto-detected, no manual configuration needed):

NIC	User library
AMD Pollara (AINIC)	libionic.so
Mellanox ConnectX	libmlx5.so (typically pre-installed)
Broadcom Thor2	libbnxt_re.so

Note: IBGDA requires vendor-specific DV (Direct Verbs) libraries. Mellanox libmlx5 is typically pre-installed with the kernel OFED stack. For Thor2 and Pollara, install the corresponding userspace library from your NIC vendor.

Install

MoRI can be installed in three ways: from PyPI (stable), nightly pre-built wheels (latest dev), or from source.

From PyPI (stable release)

pip install amd_mori

Nightly (pre-built, tested daily)

# From PyPI
pip install --pre amd-mori-nightly

# Or from GitHub Pages
pip install --no-index --force-reinstall --find-links https://rocm.github.io/mori/nightly/latest/ amd_mori

Browse all nightly builds: https://rocm.github.io/mori/nightly/

Note: amd-mori and amd-mori-nightly both provide the mori Python module. Do not install both at the same time — uninstall one before installing the other.

From source

# NOTE: for venv build, add --no-build-isolation at the end
cd mori && pip install .

No hipcc needed at install time — host code compiles with a standard C++ compiler. GPU kernels are JIT-compiled on first use and cached to ~/.mori/jit/. If a GPU is detected during install, kernel precompilation starts automatically in the background.

To manually precompile all kernels (e.g. in a Docker image build):

MORI_PRECOMPILE=1 python -c "import mori"

Verify installation

python -c "import mori; print(mori.__version__)"

Testing

Test MORI-EP (dispatch / combine)

cd /path/to/mori
export PYTHONPATH=/path/to/mori:$PYTHONPATH
python -c "import mori; print(mori.__file__)"

# Test correctness (8 GPUs)
pytest tests/python/ops/test_dispatch_combine_intranode.py -q
pytest tests/python/ops/test_dispatch_combine_async_ll.py -q
pytest tests/python/ops/test_dispatch_combine_internode_v1.py -q

# Benchmark performance
python tests/python/ops/bench_dispatch_combine.py

Test MORI-IO

cd /path/to/mori
export PYTHONPATH=/path/to/mori:$PYTHONPATH

# Correctness tests
pytest tests/python/io/

# Benchmark performance (two nodes)
export GLOO_SOCKET_IFNAME=ens14np0
torchrun --nnodes=2 --node_rank=0 --nproc_per_node=1 --master_addr="10.194.129.65" --master_port=1234 \
  tests/python/io/benchmark.py --host="10.194.129.65" --enable-batch-transfer --enable-sess --buffer-size 32768 --transfer-batch-size 128

Test MORI-IR (Triton + shmem integration, guide)

# Basic shmem put (2 GPUs)
torchrun --nproc_per_node=2 examples/shmem/ir/test_triton_shmem.py

# Allreduce (8 GPUs)
torchrun --nproc_per_node=8 examples/shmem/ir/test_triton_allreduce.py

Contribution Guide

Welcome to MORI! We appreciate your interest in contributing. Whether you're fixing bugs, adding features, improving documentation, or sharing feedback, your contributions help make MORI better for everyone.

Code Quality

MORI uses pre-commit hooks to maintain code quality. After cloning the repository:

pip install pre-commit
cd /path/to/mori
pre-commit install

# Run on all files (first time)
pre-commit run --all-files

Pre-commit automatically checks code formatting, linting, license headers, and other quality checks on commit. To skip checks when necessary: git commit --no-verify