Alex Bradbury via llvm-dev
2020-Jan-16 18:01 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
# Overview and background RISC-V is a free and open instruction set architecture. It is a modular specification, with a range of standard extensions (e.g. floating point, atomics, etc). New standard extensions are developed through RISC-V Foundation working groups. The specifications for such extensions (e.g. vector and bit manipulation) are publicly available, but are still in flux and won't be finalised until "ratified" by the Foundation. This RFC considers how we should handle review and merging of support for in-development standard extensions, with a view to maximising collaboration and reduce duplicate effort. The summarised proposal is that patches for in-development standard extensions should be encouraged, but support should be gated by a sufficiently unappetising flag and it should be made clear that it may change substantially between LLVM releases, up until the standard is ratified. # Discussion RISC-V LLVM contributors have started posting patches to Phabricator that start to implement both the proposed bit manipulation and vector extensions. Leaving these patches uncommitted until the relevant extension is ratified matches GCC's current approach, but significantly hampers the ability for contributors to collaborate on these efforts using normal LLVM development processes and infrastructure. I believe one motivation for the current GCC policy is to avoid promoting fragmentation within the RISC-V ecosystem. I'm hugely concerned that two RISC-V vendors have announced IP offerings supporting the not yet finalised vector extension, yet don't feel it's the LLVM community's role to try to police this. I believe code should be committed to LLVM when it is of sufficient quality, when it can be shown to benefit the LLVM user or developer communities, and when there is someone willing to support it. All of these can be true even for unratified standard RISC-V extensions, with a caveat on "support". It may not be appropriate to try to police RISC-V fragmentation, but we also shouldn't needlessly add to it. Shipping compiler support may further encourage hardware with unfinalised specifications, and so we should guard it behind suitably discouraging flags and be clear that the implementation will change to match the specification up until it's finalised. Naturally we want as many of the benefits of supporting these extensions upstream with as few downsides as possible. Limiting development to downstream branches can be a barrier to collaboration, and pushes people away from the upstream LLVM community. I believe this situation is somewhat new to LLVM, as typically work on new ISA extensions/revisions is performed behind closed doors until the final version is announced. There are multiple options for inclusion of an unratified standard extension upstream: 1) Feature is in-tree, but only compiled with an explicit flag. Guarding by ifdefs is likely to get ugly, and this also requires extra build bots etc. 2) Feature always compiled, but the code path to enable it is disabled without a particular build flag. Also needs extra build bots. 3) Feature is always compiled and can be enabled regardless of LLVM build flags used. Option 2) has some precedent in the form of flags like `-fexperimental-new-pass-manager`. Option 3) doesn't have precedent in LLVM, but Robin Kruppe pointed out it has similarities to Rust, where experimental features can only be enabled in nightly builds. # Proposal Although we want to discourage downstream reliance on unratified extensions, there doesn't seem to be a strong motivation for requiring a custom LLVM build to force this. However, such unratified extensions shouldn't be accessible via normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` in Clang should be used (i.e. option 3)). We discussed this in our weekly call however, and there were voices advocating either option 2 or 3. Input welcome. If going down the option 3 route, the flags could be made more discouraging through requiring an additional `-riscv-enable-experimental-extension` flag or making the flag itself longer and scarier. Thoughts? If there is agreement that this is a sensible approach, we'd work to review and refine the proposed patches starting bit manipulation and vector extension support with a goal of getting them committed once of a sufficient quality. # Credits Thanks for input from Sam Elliott and Luís Marques on the lowRISC toolchain team, and for participants of the RISC-V sync-up call for initial feedback (especially Robin Kruppe and Evandro Menezes). Best, Alex Bradbury, CTO and Co-founder, lowRISC CIC
Alex Bradbury via llvm-dev
2020-Jan-16 18:02 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On Thu, 16 Jan 2020 at 18:01, Alex Bradbury <asb at lowrisc.org> wrote:> > # Overview and background > > RISC-V is a free and open instruction set architecture. It is a modular > specification, with a range of standard extensions (e.g. floating point, > atomics, etc). New standard extensions are developed through RISC-V > Foundation working groups. The specifications for such extensions (e.g. vector > and bit manipulation) are publicly available, but are still in flux and won't > be finalised until "ratified" by the Foundation. This RFC considers how we > should handle review and merging of support for in-development standard > extensions, with a view to maximising collaboration and reduce duplicate effort. > > The summarised proposal is that patches for in-development standard > extensions should be encouraged, but support should be gated by a sufficiently > unappetising flag and it should be made clear that it may change substantially > between LLVM releases, up until the standard is ratified. > > # Discussion > > RISC-V LLVM contributors have started posting patches to Phabricator that > start to implement both the proposed bit manipulation and vector extensions. > Leaving these patches uncommitted until the relevant extension is ratified > matches GCC's current approach, but significantly hampers the ability for > contributors to collaborate on these efforts using normal LLVM development > processes and infrastructure. I believe one motivation for the current GCC > policy is to avoid promoting fragmentation within the RISC-V ecosystem. I'm > hugely concerned that two RISC-V vendors have announced IP offerings > supporting the not yet finalised vector extension, yet don't feel it's the > LLVM community's role to try to police this. > > I believe code should be committed to LLVM when it is of sufficient > quality, when it can be shown to benefit the LLVM user or developer > communities, and when there is someone willing to support it. All of these can > be true even for unratified standard RISC-V extensions, with a caveat on > "support". It may not be appropriate to try to police RISC-V fragmentation, > but we also shouldn't needlessly add to it. Shipping compiler support may > further encourage hardware with unfinalised specifications, and so we should > guard it behind suitably discouraging flags and be clear that the > implementation will change to match the specification up until it's finalised. > Naturally we want as many of the benefits of supporting these extensions > upstream with as few downsides as possible. Limiting development to downstream > branches can be a barrier to collaboration, and pushes people away from the > upstream LLVM community. > > I believe this situation is somewhat new to LLVM, as typically work on new ISA > extensions/revisions is performed behind closed doors until the final version > is announced. > > There are multiple options for inclusion of an unratified standard extension > upstream: > 1) Feature is in-tree, but only compiled with an explicit flag. Guarding by > ifdefs is likely to get ugly, and this also requires extra build bots > etc. > 2) Feature always compiled, but the code path to enable it is disabled > without a particular build flag. Also needs extra build bots. > 3) Feature is always compiled and can be enabled regardless of LLVM > build flags used. > > Option 2) has some precedent in the form of flags like > `-fexperimental-new-pass-manager`. Option 3) doesn't have precedent in LLVM, > but Robin Kruppe pointed out it has similarities to Rust, where experimental > features can only be enabled in nightly builds.This should read: Option 3) has some precedent in the form of flags like `-fexperimental-new-pass-manager`. Option 2) doesn't have precedent in LLVM, but Robin Kruppe pointed out it has similarities to Rust, where experimental features can only be enabled in nightly builds.> # Proposal > > Although we want to discourage downstream reliance on unratified extensions, > there doesn't seem to be a strong motivation for requiring a custom LLVM build > to force this. However, such unratified extensions shouldn't be accessible via > normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the > form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` > in Clang should be used (i.e. option 3)). We discussed this in our weekly call > however, and there were voices advocating either option 2 or 3. Input welcome. > > If going down the option 3 route, the flags could be made more discouraging > through requiring an additional `-riscv-enable-experimental-extension` flag or > making the flag itself longer and scarier. Thoughts? > > If there is agreement that this is a sensible approach, we'd work to review > and refine the proposed patches starting bit manipulation and vector extension > support with a goal of getting them committed once of a sufficient quality. > > # Credits > Thanks for input from Sam Elliott and Luís Marques on the lowRISC > toolchain team, and for participants of the RISC-V sync-up call for > initial feedback (especially Robin Kruppe and Evandro Menezes). > > Best, > > Alex Bradbury, > CTO and Co-founder, lowRISC CIC
Tom Stellard via llvm-dev
2020-Jan-16 18:11 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On 01/16/2020 10:02 AM, Alex Bradbury via llvm-dev wrote:> On Thu, 16 Jan 2020 at 18:01, Alex Bradbury <asb at lowrisc.org> wrote: >> >> # Overview and background >> >> RISC-V is a free and open instruction set architecture. It is a modular >> specification, with a range of standard extensions (e.g. floating point, >> atomics, etc). New standard extensions are developed through RISC-V >> Foundation working groups. The specifications for such extensions (e.g. vector >> and bit manipulation) are publicly available, but are still in flux and won't >> be finalised until "ratified" by the Foundation. This RFC considers how we >> should handle review and merging of support for in-development standard >> extensions, with a view to maximising collaboration and reduce duplicate effort. >> >> The summarised proposal is that patches for in-development standard >> extensions should be encouraged, but support should be gated by a sufficiently >> unappetising flag and it should be made clear that it may change substantially >> between LLVM releases, up until the standard is ratified. >> >> # Discussion >> >> RISC-V LLVM contributors have started posting patches to Phabricator that >> start to implement both the proposed bit manipulation and vector extensions. >> Leaving these patches uncommitted until the relevant extension is ratified >> matches GCC's current approach, but significantly hampers the ability for >> contributors to collaborate on these efforts using normal LLVM development >> processes and infrastructure. I believe one motivation for the current GCC >> policy is to avoid promoting fragmentation within the RISC-V ecosystem. I'm >> hugely concerned that two RISC-V vendors have announced IP offerings >> supporting the not yet finalised vector extension, yet don't feel it's the >> LLVM community's role to try to police this. >> >> I believe code should be committed to LLVM when it is of sufficient >> quality, when it can be shown to benefit the LLVM user or developer >> communities, and when there is someone willing to support it. All of these can >> be true even for unratified standard RISC-V extensions, with a caveat on >> "support". It may not be appropriate to try to police RISC-V fragmentation, >> but we also shouldn't needlessly add to it. Shipping compiler support may >> further encourage hardware with unfinalised specifications, and so we should >> guard it behind suitably discouraging flags and be clear that the >> implementation will change to match the specification up until it's finalised. >> Naturally we want as many of the benefits of supporting these extensions >> upstream with as few downsides as possible. Limiting development to downstream >> branches can be a barrier to collaboration, and pushes people away from the >> upstream LLVM community. >> >> I believe this situation is somewhat new to LLVM, as typically work on new ISA >> extensions/revisions is performed behind closed doors until the final version >> is announced. >> >> There are multiple options for inclusion of an unratified standard extension >> upstream: >> 1) Feature is in-tree, but only compiled with an explicit flag. Guarding by >> ifdefs is likely to get ugly, and this also requires extra build bots >> etc. >> 2) Feature always compiled, but the code path to enable it is disabled >> without a particular build flag. Also needs extra build bots. >> 3) Feature is always compiled and can be enabled regardless of LLVM >> build flags used. >>I personally prefer option 3. Additional build flags are a burden on the rest of the community and confusing for users in my opinion. -Tom>> Option 2) has some precedent in the form of flags like >> `-fexperimental-new-pass-manager`. Option 3) doesn't have precedent in LLVM, >> but Robin Kruppe pointed out it has similarities to Rust, where experimental >> features can only be enabled in nightly builds. > > This should read: > Option 3) has some precedent in the form of flags like > `-fexperimental-new-pass-manager`. Option 2) doesn't have precedent in LLVM, > but Robin Kruppe pointed out it has similarities to Rust, where experimental > features can only be enabled in nightly builds. > >> # Proposal >> >> Although we want to discourage downstream reliance on unratified extensions, >> there doesn't seem to be a strong motivation for requiring a custom LLVM build >> to force this. However, such unratified extensions shouldn't be accessible via >> normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the >> form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` >> in Clang should be used (i.e. option 3)). We discussed this in our weekly call >> however, and there were voices advocating either option 2 or 3. Input welcome. >> >> If going down the option 3 route, the flags could be made more discouraging >> through requiring an additional `-riscv-enable-experimental-extension` flag or >> making the flag itself longer and scarier. Thoughts? >> >> If there is agreement that this is a sensible approach, we'd work to review >> and refine the proposed patches starting bit manipulation and vector extension >> support with a goal of getting them committed once of a sufficient quality. >> >> # Credits >> Thanks for input from Sam Elliott and Luís Marques on the lowRISC >> toolchain team, and for participants of the RISC-V sync-up call for >> initial feedback (especially Robin Kruppe and Evandro Menezes). >> >> Best, >> >> Alex Bradbury, >> CTO and Co-founder, lowRISC CIC > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >
Simon Cook via llvm-dev
2020-Jan-16 19:27 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On 16/01/2020 18:01, Alex Bradbury via llvm-dev wrote:> > I believe this situation is somewhat new to LLVM, as typically work on new ISA > extensions/revisions is performed behind closed doors until the final version > is announced. > > There are multiple options for inclusion of an unratified standard extension > upstream: > 1) Feature is in-tree, but only compiled with an explicit flag. Guarding by > ifdefs is likely to get ugly, and this also requires extra build bots > etc. > 2) Feature always compiled, but the code path to enable it is disabled > without a particular build flag. Also needs extra build bots. > 3) Feature is always compiled and can be enabled regardless of LLVM > build flags used.I would steer away from needing extra build time flags to enable these extensions. If most people don't use these flags then there's a risk of these bitrotting or getting broken by other patches in the backend or elsewhere and may add to the support burg> > Option 2) has some precedent in the form of flags like > `-fexperimental-new-pass-manager`. Option 3) doesn't have precedent in LLVM, > but Robin Kruppe pointed out it has similarities to Rust, where experimental > features can only be enabled in nightly builds. > > # Proposal > > Although we want to discourage downstream reliance on unratified extensions, > there doesn't seem to be a strong motivation for requiring a custom LLVM build > to force this. However, such unratified extensions shouldn't be accessible via > normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the > form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` > in Clang should be used (i.e. option 3)). We discussed this in our weekly call > however, and there were voices advocating either option 2 or 3. Input welcome. > > If going down the option 3 route, the flags could be made more discouraging > through requiring an additional `-riscv-enable-experimental-extension` flag or > making the flag itself longer and scarier. Thoughts? > > If there is agreement that this is a sensible approach, we'd work to review > and refine the proposed patches starting bit manipulation and vector extension > support with a goal of getting them committed once of a sufficient quality.I would propose a different way of exposing this to the user, exposing these extensions through the ISA string, but require that an explicit version number is provided when requesting the extension using the standard syntax. For example, bitmanip currently sits at version 0.92, so I would have clang accept for example -march=rv32ib0p92, but error on -march=rv32ib since it is not yet ratified. This would avoid the ambiguity of the "which experimental b extension does the compiler support" problem all the way until an extension is ratified by making it explicit everywhere. My concern with a blanket "enable the experimental support for X" approach is if users depend on them (because they will, regardless of the name of the flag), then when the supported version by the compiler changes, we should stop a user from generating code that for their use case would then be invalid. Alongside this I would add relevant error messages noting the current version supported e.g. "this clang only supports b extension version 0.91". I appreciate we don't want to support every unratified version of an extension, but I think maintaining a check that the user wants "the current supported version" is probably a good balance. Thanks, Simon
Alex Bradbury via llvm-dev
2020-Jan-17 11:34 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On Thu, 16 Jan 2020 at 19:27, Simon Cook via llvm-dev <llvm-dev at lists.llvm.org> wrote:> On 16/01/2020 18:01, Alex Bradbury via llvm-dev wrote: > > # Proposal > > > > Although we want to discourage downstream reliance on unratified extensions, > > there doesn't seem to be a strong motivation for requiring a custom LLVM build > > to force this. However, such unratified extensions shouldn't be accessible via > > normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the > > form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` > > in Clang should be used (i.e. option 3)). We discussed this in our weekly call > > however, and there were voices advocating either option 2 or 3. Input welcome. > > > > If going down the option 3 route, the flags could be made more discouraging > > through requiring an additional `-riscv-enable-experimental-extension` flag or > > making the flag itself longer and scarier. Thoughts? > > > > If there is agreement that this is a sensible approach, we'd work to review > > and refine the proposed patches starting bit manipulation and vector extension > > support with a goal of getting them committed once of a sufficient quality. > > I would propose a different way of exposing this to the user, exposing > these extensions through the ISA string, but require that an explicit > version number is provided when requesting the extension using the > standard syntax. For example, bitmanip currently sits at version 0.92, > so I would have clang accept for example -march=rv32ib0p92, but error on > -march=rv32ib since it is not yet ratified.Thanks for the feedback Simon. I'd considered sticking to just the ISA string, but my concern was that (and I'll admit this is just a gut feeling) that it might imply a level of support / stability that simply isn't there. In particular, people might get the impression that b0p92 will continue to be supported, when we'd want to avoid supporting old unratified spec versions (or even reasoning about whether they remain supported or not due to later spec changes). But I accept that the separate flag means that we break the property that you can describe the targeted architecture concisely with a single string. Best, Alex
James Y Knight via llvm-dev
2020-Jan-17 15:32 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On Thu, Jan 16, 2020 at 2:28 PM Simon Cook via llvm-dev < llvm-dev at lists.llvm.org> wrote:> > > On 16/01/2020 18:01, Alex Bradbury via llvm-dev wrote: > > > > I believe this situation is somewhat new to LLVM, as typically work on > new ISA > > extensions/revisions is performed behind closed doors until the final > version > > is announced. > > > > There are multiple options for inclusion of an unratified standard > extension > > upstream: > > 1) Feature is in-tree, but only compiled with an explicit flag. Guarding > by > > ifdefs is likely to get ugly, and this also requires extra build bots > > etc. > > 2) Feature always compiled, but the code path to enable it is disabled > > without a particular build flag. Also needs extra build bots. > > 3) Feature is always compiled and can be enabled regardless of LLVM > > build flags used. > > I would steer away from needing extra build time flags to enable these > extensions. If most people don't use these flags then there's a risk of > these bitrotting or getting broken by other patches in the backend or > elsewhere and may add to the support burg >I'd agree that compile-time optionality is best avoided when possible. I would propose a different way of exposing this to the user, exposing> these extensions through the ISA string, but require that an explicit > version number is provided when requesting the extension using the > standard syntax. For example, bitmanip currently sits at version 0.92, > so I would have clang accept for example -march=rv32ib0p92, but error on > -march=rv32ib since it is not yet ratifiedThat march flag doesn't scream out to me "Warning! You're using an experimental extension which will probably be changed incompatibly in the next release!" like an explicit command-line flag could do. One way to resolve this would be to require _both_ -- you must specify your ISA options with explicit versions in the ISA string, but, doing so would print an error without a separate flag also being enabled, e.g. "error: ISA extension b0p92 is an experimental extension, and support may be removed in future LLVM releases. Pass -mallow-experimental-riscv-isa-extensions to enable." -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200117/e011f992/attachment-0001.html>
Chris Lattner via llvm-dev
2020-Jan-21 01:13 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On Jan 16, 2020, at 10:01 AM, Alex Bradbury via llvm-dev <llvm-dev at lists.llvm.org> wrote:> # Overview and background > > RISC-V LLVM contributors have started posting patches to Phabricator that > start to implement both the proposed bit manipulation and vector extensions. > Leaving these patches uncommitted until the relevant extension is ratified > matches GCC's current approach, but significantly hampers the ability for > contributors to collaborate on these efforts using normal LLVM development > processes and infrastructure. I believe one motivation for the current GCC > policy is to avoid promoting fragmentation within the RISC-V ecosystem. I'm > hugely concerned that two RISC-V vendors have announced IP offerings > supporting the not yet finalised vector extension, yet don't feel it's the > LLVM community's role to try to police this.Thank you for raising this concern and getting ahead of it. I agree with you completely that we should aspire to have people work together, and duplicating effort with similar but different patches doesn’t help things.> I believe code should be committed to LLVM when it is of sufficient > quality, when it can be shown to benefit the LLVM user or developer > communities, and when there is someone willing to support it. All of these can > be true even for unratified standard RISC-V extensions, with a caveat on > "support”.+1> # Proposal > > Although we want to discourage downstream reliance on unratified extensions, > there doesn't seem to be a strong motivation for requiring a custom LLVM build > to force this. However, such unratified extensions shouldn't be accessible via > normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the > form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` > in Clang should be used (i.e. option 3)). We discussed this in our weekly call > however, and there were voices advocating either option 2 or 3. Input welcome. > > If going down the option 3 route, the flags could be made more discouraging > through requiring an additional `-riscv-enable-experimental-extension` flag or > making the flag itself longer and scarier. Thoughts?I think you’ve got the right tradeoff here. If I’m understanding your plan, it is: - don’t add extensions to the isa naming string until they are finalized. - in-progress extensions can land in mainline LLVM, and are protected under a -experimental-foo style of flag. There is no support implied or compatibility in the future for such flags, they can be changed or removed at any time, they are just for staging. - it doesn’t seem like there is any need to #ifdef out these flags. A scary enough flag name should be fine. The goal isn’t to prevent malice, it is to prevent accidental reliance. This all makes sense to me.> If there is agreement that this is a sensible approach, we'd work to review > and refine the proposed patches starting bit manipulation and vector extension > support with a goal of getting them committed once of a sufficient quality.Fantastic, thank you for the very nice summary and for driving this discussion Alex! -Chris
Alex Bradbury via llvm-dev
2020-Jan-21 13:00 UTC
[llvm-dev] [RFC] Upstream development of support for yet-to-be-ratified RISC-V extensions
On Tue, 21 Jan 2020 at 01:14, Chris Lattner <clattner at nondot.org> wrote:> > On Jan 16, 2020, at 10:01 AM, Alex Bradbury via llvm-dev <llvm-dev at lists.llvm.org> wrote: > > I believe code should be committed to LLVM when it is of sufficient > > quality, when it can be shown to benefit the LLVM user or developer > > communities, and when there is someone willing to support it. All of these can > > be true even for unratified standard RISC-V extensions, with a caveat on > > "support”. > > +1 > > > # Proposal > > > > Although we want to discourage downstream reliance on unratified extensions, > > there doesn't seem to be a strong motivation for requiring a custom LLVM build > > to force this. However, such unratified extensions shouldn't be accessible via > > normal RISC-V ISA naming strings (e.g. "rv32imafdc"), and instead flags of the > > form `-riscv-experimental-vector-ext` in LLVM and `-mexperimental-vector-ext` > > in Clang should be used (i.e. option 3)). We discussed this in our weekly call > > however, and there were voices advocating either option 2 or 3. Input welcome. > > > > If going down the option 3 route, the flags could be made more discouraging > > through requiring an additional `-riscv-enable-experimental-extension` flag or > > making the flag itself longer and scarier. Thoughts? > > I think you’ve got the right tradeoff here. If I’m understanding your plan, it is: > > - don’t add extensions to the isa naming string until they are finalized. > > - in-progress extensions can land in mainline LLVM, and are protected under a -experimental-foo style of flag. There is no support implied > or compatibility in the future for such flags, they can be changed or removed at any time, they are just for staging. > > - it doesn’t seem like there is any need to #ifdef out these flags. A scary enough flag name should be fine. The goal isn’t to prevent malice, it is to prevent accidental reliance. > > This all makes sense to me.That's correct, thanks for the feedback. I do like the idea from James of having the compiler always spit out a note when enabling the experimental extension, warning of its experimental nature. If we had such a warning and additionally required a `-riscv-enable-experimental-extensions` or similar, then I think there could be merit in including in the ISA string as Simon suggests, especially as we're likely to start putting that string in ELF output etc. So based on feedback so far, I'd like to narrow the field to: Option 1) * Unratified extensions are not available through the ISA naming string and are enabled via `-riscv-experimental-foo` or similar * A warning is always emitted when enabling experimental extensions * Support is always compiled in, and the flags aren't ifdeffed out Option 2) * Unratified extensions can be enabled by passing a flag like -riscv-enable-experimental-extensions and additionally putting the extension name and version number in the ISA naming string (version number is always required, and we will only accept the 'current' version number). * A warning is always emitted when enabling experimental extensions * Support is always compiled in, and the flags aren't ifdeffed out Best, Alex
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