In the early days of personal computing CPU bugs were so rare as to be newsworthy.
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@gabrielesvelto Intel/AMD had an opportunity to create a clean, easy to decode instruction layout with the transition to 64bit but they failed. http://www.emulators.com/docs/nx05_vx64.htm
@hyc ISA complexity is just part of it. The issue stems from the combination of very large instruction sets and operation modes with very high performance implementations. If you look at something as old and simple as the Cortex A9, even that came with a pretty significant amount of issues: https://documentation-service.arm.com/static/608118315e70d934bc69f13d
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@hyc ISA complexity is just part of it. The issue stems from the combination of very large instruction sets and operation modes with very high performance implementations. If you look at something as old and simple as the Cortex A9, even that came with a pretty significant amount of issues: https://documentation-service.arm.com/static/608118315e70d934bc69f13d
@gabrielesvelto yes, it's only a part, but it starts there. The irregular instruction sizes caused problems when instructions straddled cacheline boundaries, etc. Everything after that: superscalar execution, OOOE, all got harder because the simplest case, single instruction in-order, was already non-deterministic.
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@gabrielesvelto yes, it's only a part, but it starts there. The irregular instruction sizes caused problems when instructions straddled cacheline boundaries, etc. Everything after that: superscalar execution, OOOE, all got harder because the simplest case, single instruction in-order, was already non-deterministic.
@hyc it's definitely an added source of complexity for x86 implementations. I remember reading this a few years ago: https://blog.trailofbits.com/2019/10/31/destroying-x86_64-instruction-decoders-with-differential-fuzzing/
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Bonus end-of-thread post: when you encounter these bugs try to cut the hardware designers some slack. They work on increasingly complex stuff, with increasingly pressing deadlines and under upper management who rarely understands what they're doing. Put the blame for these bugs where it's due: on executives that haven't allocated enough time, people and resources to make a quality product.
@gabrielesvelto seriously, GET A FUCKING BLOG.
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In the early days of personal computing CPU bugs were so rare as to be newsworthy. The infamous Pentium FDIV bug is remembered by many, and even earlier CPUs had their own issues (the 6502 comes to mind). Nowadays they've become so common that I encounter them routinely while triaging crash reports sent from Firefox users. Given the nature of CPUs you might wonder how these bugs arise, how they manifest and what can and can't be done about them. 🧵 1/31
@gabrielesvelto this was fascinating, thanks!
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@gabrielesvelto Intel's officially stated reason is that (too) high voltage (and temperature) caused fast degradation of clock trees inside cores. This degradation resulted in a duty cycle shift (square wave no longer square?), which caused general instability. If they use both posedge and negedge as triggers, then change in duty cycle will definitely violate timing.
@krzysdz @gabrielesvelto Back in my day at least there was lots of latch-based design. The time borrowing through the transparencies was used to make up for timing miscorrelation on the datapath. I remember timing limiters that could be 5+ cycles long.
However, that presumes you have tighter constraints on the clock path. Even a faster-than-model clock path could slow you down.
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All in all modern CPUs are beasts of tremendous complexity and bugs have become inevitable. I wish the industry would be spending more resources addressing them, improving design and testing before CPUs ship to users, but alas most of the tech sector seems more keen on playing with unreliable statistical toys rather than ensuring that the hardware users pay good money for works correctly. 31/31
@gabrielesvelto great thread! Thanks!
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@grumble209 @gabrielesvelto Sun cheaped-out on the external cache pathway, using only parity protection rather than the ECC protection that direct competitors (HAL/Fujitsu) were using.
This made the US-II external cache vulnerable to environmental factors (alpha-particle emissions from common packaging materials).
@shelldozer @grumble209 @gabrielesvelto I've probably had more of those UltraSPARC-II's pass through my hands than any other CPU. (I had four maxed-out E4000's at home at one point.)
I had a friend in the 90s who had a job at DEC one summer writing a program that output random but legal C, to stress-test their compiler.
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In the early days of personal computing CPU bugs were so rare as to be newsworthy. The infamous Pentium FDIV bug is remembered by many, and even earlier CPUs had their own issues (the 6502 comes to mind). Nowadays they've become so common that I encounter them routinely while triaging crash reports sent from Firefox users. Given the nature of CPUs you might wonder how these bugs arise, how they manifest and what can and can't be done about them. 🧵 1/31
@gabrielesvelto The 6502 had no bugs. Just some undocumented features.
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@gabrielesvelto wow, and where does it get the microcode from? Another computer within the computer? (turtles and all that :)
@mdione @gabrielesvelto The small flash chip that holds the UEFI and other firmware components also has the µcode patch on it. The chip sits on a simple bus (usually SPI), so it can be directly wired into the CPU and accessed immediately after the system comes out of reset.
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Bonus end-of-thread post: when you encounter these bugs try to cut the hardware designers some slack. They work on increasingly complex stuff, with increasingly pressing deadlines and under upper management who rarely understands what they're doing. Put the blame for these bugs where it's due: on executives that haven't allocated enough time, people and resources to make a quality product.
@gabrielesvelto how about a blog post ?
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@gabrielesvelto how about a blog post ?
@usul je n'ai pas l’énergie pour fair un blog post, ça serait très long
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