## [6.2] Released 22nd January 2024 ### Minimum Rustc Version - The MSRV for RustFFT is now 1.61.0 ### Added - Implemented a code path for SIMD-optimized FFTs on WASM targets (Thanks to @pr1metine) (#120) ### Fixed - Fixed pointer aliasing causing unsoundness and miri check failures (#113) - Fixed computation of size-1 FFTs (#119) - Fixed readme type (#121) ## [6.1] Released 7th Novemeber 2022 ### Added - Implemented a code path for Neon-optimized FFTs on AArch64 (Thanks to Henrik Enquist!) (#84 and #78) ### Changed - Improved performance of power-of-3 FFTs when not using SIMD-accelerated code paths (#80) - Reduced memory usage for some FFT sizes (#81) ## [6.0.1] Released 10 May 2021 ### Fixed - Fixed a compile-time divide by zero error on nightly Rust in `stdarch\crates\core_arch\src\macros.rs` (#75) - Increased the minimum version of `strength_reduce` to 0.2.3 ## [6.0.0] Released 16 April 2021 ### Breaking Changes - Increased the version of the num-complex dependency to 0.4. - This is a breaking change because we have a public dependency on num-complex. - See the [num-complex changelog](https://github.com/rust-num/num-complex/blob/master/RELEASES.md) for a list of breaking changes in num-complex 0.4 - As a high-level summary, most users will not need to do anything to upgrade to RustFFT 6.0: num-complex 0.4 re-exports a newer version of `rand`, and that's num-complex's only documented breaking change. ## [5.1.1] Released 10 May 2021 ### Fixed - Fixed a compile-time divide by zero error on nightly Rust in `stdarch\crates\core_arch\src\macros.rs` (Backported from v6.0.1) - Increased the minimum version of `strength_reduce` to 0.2.3 (Backported from v6.0.1) ## [5.1.0] Released 16 April 2021 ### Added - Implemented a code path for SSE-optimized FFTs (Thanks to Henrik Enquist!) (#60) - Plan a FFT using the `FftPlanner` (or the new `FftPlannerSse`) on a machine that supports SSE4.1 (but not AVX) and you'll see a 2-3x performance improvement over the default scalar code. ### Fixed - Fixed underflow when planning an AVX FFT of size zero (#56) - Fixed the FFT planner not being Send, due to internal use of Rc<> (#55) - Fixed typo in documentation (#54) - Slightly improved numerical precision of Rader's Algorithm and Bluestein's Algorithm (#66, #68) - Minor optimizations to Rader's Algorithm and Bluestein's Algorithm (#59) - Minor optimizations to MixedRadix setup time (#57) - Optimized performance of Radix4 (#65) ## [5.0.1] Released 8 January 2021 ### Fixed - Fixed the FFT planner not choosing an obviously faster plan in some rare cases (#46) - Documentation fixes and clarificarions (#47, #48, #51) ## [5.0.0] Released 4 January 2021 ### Breaking Changes - Several breaking changes. See the [Upgrade Guide](/UpgradeGuide4to5.md) for details. ### Added - Added support for the `Avx` instruction set. Plan a FFT with the `FftPlanner` on a machine that supports AVX, and you'll get a 5x-10x speedup in FFT performance. ### Changed - Even though the main focus of this release is on AVX, most users should see moderate performance improvements due to a new internal architecture that reduces the amount of internal copies required when computing a FFT. ## [4.1.0] Released 24 December 2020 ### Added - Added a blanket impl of `FftNum` to any type that implements the required traits (#7) - Added butterflies for many prime sizes, up to 31, and optimized the size-3, size-5, and size-7 buitterflies (#10) - Added an implementation of Bluestein's Algorithm (#6) ### Changed - Improved the performance of GoodThomasAlgorithm re-indexing (#20) ## [4.0.0] Released 8 October 2020 This release moved the home repository of RustFFT from https://github.com/awelkie/RustFFT to https://github.com/ejmahler/RustFFT ### Breaking Changes - Increased the version of the num-complex dependency to 0.3. This is a breaking change because we have a public dependency on num-complex. See the [num-complex changelog](https://github.com/rust-num/num-complex/blob/master/RELEASES.md) for a list of breaking changes in num-complex 0.3. - Increased the minimum required Rust version from 1.26 to 1.31. This was required by the upgrade to num-complex 0.3. ## [3.0.1] Released 27 December 2019 ### Fixed - Fixed warnings regarding "dyn trait", and warnings regarding inclusive ranges - Several documentation improvements ## [3.0.0] Released 4 January 2019 ### Changed - Reduced the setup time and memory usage of GoodThomasAlgorithm - Reduced the setup time and memory usage of RadersAlgorithm ### Breaking Changes - Documented the minimum rustsc version. Before, none was specified. now, it's 1.26. Further increases to minimum version will be a breaking change. - Increased the version of the num-complex dependency to 0.2. This is a breaking change because we have a public dependency on num-complex. See the [num-complex changelog](https://github.com/rust-num/num-complex/blob/master/RELEASES.md) for a list of breaking changes in num-complex 0.2 ## [2.1.0] Released 30 July 2018 ### Added - Added a specialized implementation of Good Thomas Algorithm for when both inner FFTs are butterflies ### Changed - Documentation typo fixes - Increased minimum version of num_traits and num_complex. Notably, Complex is now guaranteed to be repr(C) - Significantly improved the performance of the Radix4 algorithm - Reduced memory usage of prime-sized FFTs - Incorporated the Good-Thomas Double Butterfly algorithm into the planner, improving performance for most composite and prime FFTs ## [2.0.0] Released 22 May 2017 ### Added - Added implementation of Good Thomas algorithm. - Added implementation of Raders algorithm. - Added implementation of Radix algorithm for power-of-two lengths. - Added `FFTPlanner` to choose the fastest algorithm for a given size. ### Changed - Changed API to take the "signal" as mutable and use it for scratch space. ## [1.0.1] Released 15 January 2016 ### Changed - Relicensed to dual MIT/Apache-2.0. ## [1.0.0] Released 4 October 2015 ### Added - Added initial implementation of Cooley-Tukey.