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Intel promised microcode updates to resolve the vulnerability. [1] The microcode patches have been shown to significantly reduce the performance of some heavily-vectorized loads. [7] Patches to mitigate the effects of the vulnerability have also been created as part of the forthcoming version 6.5 release of the Linux kernel. [8]
Intel distributes microcode updates as a 2,048 (2 kilobyte) binary blob. [1] The update contains information about which processors it is designed for, so that this can be checked against the result of the CPUID instruction. [1] The structure is a 48-byte header, followed by 2,000 bytes intended to be read directly by the processor to be ...
[33] [34] The issue was initially attributed to Nvidia GeForce graphics drivers; however, in a driver update published on April 13, 2024, Nvidia acknowledged the instability problem as being associated with the Intel 13th/14th generation CPUs, and that owners of them should contact Intel customer support for further assistance. [35]
Intel reported that they are preparing new patches to mitigate these flaws. [24] On August 14, 2018, Intel disclosed three additional chip flaws referred to as L1 Terminal Fault (L1TF). They reported that previously released microcode updates, along with new, pre-release microcode updates can be used to mitigate these flaws. [25] [26]
Intel Transactional Synchronization Extensions (TSX) for the Haswell-EX variant. In August 2014 Intel announced that a bug exists in the TSX implementation on the current steppings of Haswell, Haswell-E, Haswell-EP and early Broadwell CPUs, which resulted in disabling the TSX feature on affected CPUs via a microcode update. [33] [34] [35] [36]
In response to the research, Intel released microcode updates to mitigate the issue. The updated microcode ensures that off-core accesses are delayed until sensitive operations – specifically the RDRAND, RDSEED, and EGETKEY instructions – are completed and the staging buffer has been overwritten. [21]
Broadwell: 14 nm derivative of the Haswell microarchitecture, released in September 2014. Three-cycle FMUL latency, 64 entry scheduler. Formerly called Rockwell. Skylake 14 nm microarchitecture, released August 5, 2015. Kaby Lake: successor to Skylake, released in August 2016, broke Intel's tick-tock schedule due to delays with the 10 nm process.
Bottom view of a Core i7-2600K. Sandy Bridge is the codename for Intel's 32 nm microarchitecture used in the second generation of the Intel Core processors (Core i7, i5, i3).The Sandy Bridge microarchitecture is the successor to Nehalem and Westmere microarchitecture.