### 0.0.21 - Ampere, RTX 30 series GPUs now compatible with the library. ### 0.0.22: - Fixed an error where a `reset_parameters()` call on the `StableEmbedding` would lead to an error in older PyTorch versions (from 1.7.0). ### 0.0.23: Bugs: - Unified quantization API: each quantization function now returns `Q, S` where `Q` is the quantized tensor and `S` the quantization state which may hold absolute max values, a quantization map or more. For dequantization all functions now accept the inputs `Q, S` so that `Q` is dequantized with the quantization state `S`. - Fixed an issue where the CUDA 11.1 binary was not compiled with the right headers API changes: - Block-wise quantization for optimizers now enabled by default Features: - Block-wise quantization routines now support CPU Tensors. ### 0.0.24: - Fixed a bug where a float/half conversion led to a compilation error for CUDA 11.1 on Turning GPUs. - removed Apex dependency for bnb LAMB ### 0.0.25: Features: - Added `skip_zeros` for block-wise and 32-bit optimizers. This ensures correct updates for sparse gradients and sparse models. - Added support for Kepler GPUs. (#4) - Added Analysis Adam to track 8-bit vs 32-bit quantization errors over time. - Make compilation more user friendly. Bug fixes: - fixed "undefined symbol: \_\_fatbinwrap_38" error for P100 GPUs on CUDA 10.1 (#5) Docs: - Added docs with instructions to compile from source. ### 0.26.0: Features: - Added Adagrad (without grad clipping) as 32-bit and 8-bit block-wise optimizer. - Added AdamW (copy of Adam with weight decay init 1e-2). #10 - Introduced ModuleConfig overrides which can be seamlessly be used at initialization time of a module. - Added `bnb.nn.Embedding` layer which runs at 32-bit but without the layernorm. This works well if you need to fine-tune pretrained models that do not have a embedding layer norm. #19 Bug fixes: - Fixed a bug where weight decay was incorrectly applied to 32-bit Adam. #13 - Fixed an unsafe use of eval. #8 - Fixed a bug where the StableEmbedding layer 32-bit optimizer override would not work without registering the whole model first (`bnb.optim.GlobalOptimManager.get_instance().register_parameters(model.parameters())`). #13 #15 Docs: - Added instructions how to solve "\_\_fatbinwrap_" errors. ### 0.30.0 #### 8-bit Inference Update Features: - Added 8-bit matrix multiplication form cuBLAS, and cuBLASLt as well as multiple GEMM kernels (GEMM, GEMMEx, GEMMLt) - Added 8-bit Linear layers with 8-bit Params that perform memory efficient inference with an option for 8-bit mixed precision matrix decomposition for inference without performance degradation - Added quantization methods for "fake" quantization as well as optimized kernels vector-wise quantization and equalization as well as optimized cuBLASLt transformations - CPU only build now available (Thank you, @mryab) Deprecated: - Pre-compiled release for CUDA 9.2, 10.0, 10.2 no longer available ### 0.31.0 #### 8-bit Inference and Packaging Update Features: - added direct outlier extraction. This enables outlier extraction without fp16 weights without performance degradation. - Added automatic CUDA SETUP procedure and packaging all binaries into a single bitsandbytes package. ### 0.32.0 #### 8-bit Inference Performance Enhancements We added performance enhancements for small models. This makes small models about 2x faster for LLM.int8() inference. Features: - Int32 dequantization now supports fused biases. - Linear8bitLt now uses a fused bias implementation. - Change `.data.storage().data_ptr()` to `.data.data_ptr()` to enhance inference performance. Bug fixes: - Now throws and error if LLM.int8() is used on a GPU that is not supported. - Enhances error messaging if CUDA SETUP fails. ### 0.33.0 #### Various bug fixes Features: - CPU quantization now supports a variable `blocksize` variable to enhance quantization speed or precision. Bug fixes: - fixed an issue in CPU quantization where tensors with more than 2^31 elements would fail 19a7adca7a6c9bf7061a384d7e9d9b13676a1a88 - fixed a bug where cpu binaries would fail if no GPU would be detected eab4d8232d558f2e6bd7f7cc3d00e2e6e94f4e80 - fixed an issue where cpu binaries cause additional stdout messages 92a3363096e10ad6a5c4e944af898bd1186d806a - fixed an import of bnb.utils 2e630b55f51d454f3bd723dffda68a07ef93190c We thank @mryab, @mbrukman, @chessgecko, @dbaranchuk for pull request with bug fixes and new features. ### 0.34.0 #### Bug fixes and memory efficient backprop Features: - Linear8bitLt layer now supports `memory_efficient_backward=True` which enables backprop of gradients through frozen weights. Bug fixes: - fixed an issue where too many threads were created in blockwise quantization on the CPU for large tensors ### 0.35.0 #### CUDA 11.8 support and bug fixes Features: - CUDA 11.8 support added and binaries added to the PyPI release. Bug fixes: - fixed a bug where too long directory names would crash the CUDA SETUP #35 (thank you @tomaarsen) - fixed a bug where CPU installations on Colab would run into an error #34 (thank you @tomaarsen) - fixed an issue where the default CUDA version with fast-DreamBooth was not supported #52 ### 0.35.1 Features: - Added CUDA instruction generator to fix some installations. Bug fixes: - Fixed a problem where warning messages would be displayed even though everything worked correctly. ### 0.35.2 Bug fixes: - Fixed a bug where the CUDA setup failed due to a wrong function call. ### 0.35.3 Bug fixes: - Fixed a bug in the CUDA Setup which led to an incomprehensible error if no GPU was detected. ### 0.35.4 Bug fixes: - Fixed a bug in the CUDA Setup failed with the cuda runtime was found, but not the cuda library. - Fixed a bug where not finding the cuda runtime led to an incomprehensible error. ### 0.36.0 #### Improvements, Ada/Hopper support, fake k-bit quantization. Features: - CUDA 11.8 and 12.0 support added - support for Ada and Hopper GPUs added (compute capability 8.9 and 9.0) - support for fake k-bit block-wise quantization for Int, Float, quantile quantization, and dynamic exponent data types added - Added CUDA instruction generator to fix some installations. - Added additional block sizes for quantization {64, 128, 256, 512, 1024} - Added SRAM Quantile algorithm to quickly estimate less than 256 quantiles - Added option to suppress the bitsandbytes welcome message (@Cyberes) Regression: - Compute capability 3.0 removed: GTX 600s and 700s series is no longer supported (except GTX 780 and GTX 780 Ti) Bug fixes: - fixed a bug where too long directory names would crash the CUDA SETUP #35 (@tomaarsen) - fixed a bug where CPU installations on Colab would run into an error #34 (@tomaarsen) - fixed an issue where the default CUDA version with fast-DreamBooth was not supported #52 - fixed a bug where the CUDA setup failed due to a wrong function call. - fixed a bug in the CUDA Setup which led to an incomprehensible error if no GPU was detected. - fixed a bug in the CUDA Setup failed with the cuda runtime was found, but not the cuda library. - fixed a bug where not finding the cuda runtime led to an incomprehensible error. - fixed a bug where with missing CUDA the default was an error instead of the loading the CPU library - fixed a bug where the CC version of the GPU was not detected appropriately (@BlackHC) - fixed a bug in CPU quantization which lead to errors when the input buffer exceeded 2^31 elements Improvements: - multiple improvements in formatting, removal of unused imports, and slight performance improvements (@tomaarsen) - StableEmbedding layer now has device and dtype parameters to make it 1:1 replaceable with regular Embedding layers (@lostmsu) - runtime performance of block-wise quantization slightly improved - added error message for the case multiple libcudart.so are installed and bitsandbytes picks the wrong one ### 0.37.0 #### Int8 Matmul + backward support for all GPUs Features: - Int8 MatmulLt now supports backward through inversion of the ColTuring/ColAmpere format. Slow, but memory efficient. Big thanks to @borzunov - Int8 now supported on all GPUs. On devices with compute capability < 7.5, the Int weights are cast to 16/32-bit for the matrix multiplication. Contributed by @borzunov Improvements: - Improved logging for the CUDA detection mechanism. ### 0.38.0 #### 8-bit Lion, Load/Store 8-bit Models directly from/to HF Hub Features: - Support for 32 and 8-bit Lion has been added. Thank you @lucidrains - Support for serialization of Linear8bitLt layers (LLM.int8()). This allows to store and load 8-bit weights directly from the HuggingFace Hub. Thank you @myrab - New bug report features `python -m bitsandbytes` now gives extensive debugging details to debug CUDA setup failures. Bug fixes: - Fixed a bug where some bitsandbytes methods failed in a model-parallel setup on multiple GPUs. Thank you @tonylins - Fixed a bug where cudart.so libraries could not be found in newer PyTorch releases. Improvements: - Improved the CUDA Setup procedure by doing a more extensive search for CUDA libraries Deprecated: - Devices with compute capability 3.0 (GTX 700s, K10) and 3.2 (Tegra K1, Jetson TK1) are now deprecated and support will be removed in 0.39.0. - Support for CUDA 10.0 and 10.2 will be removed in bitsandbytes 0.39.0 ### 0.38.1 Features: - Added Int8 SwitchBack layers - Added Fake FP8 layers for research purposes (available under `bnb.research.nn. ...`) ### 0.39.0 Features: - 4-bit matrix multiplication for Float4 and NormalFloat4 data types. - Added 4-bit quantization routines - Doubled quantization routines for 4-bit quantization - Paged optimizers for Adam and Lion. - bfloat16 gradient / weight support for Adam and Lion with 8 or 32-bit states. Bug fixes: - Fixed a bug where 8-bit models consumed twice the memory as expected after serialization Deprecated: - Kepler binaries (GTX 700s and Tesla K40/K80) are not longer provided via pip and need to be compiled from source. Kepler support might be fully removed in the future.