David Sherwood via llvm-dev
2020-Nov-05 15:42 UTC
[llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model
Hi, I'd like to propose a change to our cost interfaces so that instead of returning an unsigned value from functions like getInstructionCost, getUserCost, etc., we instead return a wrapper class that encodes an integer cost along with extra state. The extra state can be used to express: 1. A cost as infinitely expensive in order to prevent certain optimisations taking place. For example, there are already examples in LLVM where the cost is set extremely high, but not so high that it would cause overflow. This might be to prevent vectorisation in cases where we would have to scalarize the operation, which is particularly relevant for scalable vectors, where scalarisation is not [yet] available. There isn't currently a standard value for something that constitutes very expensive and we can replace all the magic numbers with a single invalid state. 2. A cost as unknown, where the user is simply unable to determine an accurate cost for an operation. This new wrapper class would work almost seamlessly with existing code as it would contain the full set of operators required for arithmetic and comparisons. This is in addition to the ability to create invalid costs and query the validity of an existing cost. Once a cost becomes invalid or unknown it will remain in that state regardless of any further arithmetic performed. Kind Regards, David Sherwood. -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20201105/bafb3ae3/attachment.html>
Chris Lattner via llvm-dev
2020-Nov-05 18:47 UTC
[llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model
> On Nov 5, 2020, at 7:42 AM, David Sherwood via llvm-dev <llvm-dev at lists.llvm.org> wrote: > > Hi, > > I'd like to propose a change to our cost interfaces so that instead of returning > an unsigned value from functions like getInstructionCost, getUserCost, etc., we > instead return a wrapper class that encodes an integer cost along with extra > state. The extra state can be used to express: > > 1. A cost as infinitely expensive in order to prevent certain optimisations > taking place. For example, there are already examples in LLVM where the cost is > set extremely high, but not so high that it would cause overflow. This might be to > prevent vectorisation in cases where we would have to scalarize the operation, > which is particularly relevant for scalable vectors, where scalarisation is > not [yet] available. There isn't currently a standard value for something that > constitutes very expensive and we can replace all the magic numbers with a > single invalid state. > 2. A cost as unknown, where the user is simply unable to determine an accurate > cost for an operation. > > This new wrapper class would work almost seamlessly with existing code as it > would contain the full set of operators required for arithmetic and comparisons. > This is in addition to the ability to create invalid costs and query the validity > of an existing cost. Once a cost becomes invalid or unknown it will remain in that > state regardless of any further arithmetic performed.This sounds like a great step to me David, -Chris -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20201105/9013a862/attachment.html>
Chris Tetreault via llvm-dev
2020-Nov-05 19:23 UTC
[llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model
You're being quite vague about what the extra state is. Is this because you haven't yet settled on what it should be, or do you actually intend to let it be a template parameter: template <typename T> struct Cost { unsigned Val; T State; } Thanks, Christopher Tetreault From: llvm-dev <llvm-dev-bounces at lists.llvm.org> On Behalf Of David Sherwood via llvm-dev Sent: Thursday, November 5, 2020 7:43 AM To: llvm-dev at lists.llvm.org Subject: [EXT] [llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model Hi, I'd like to propose a change to our cost interfaces so that instead of returning an unsigned value from functions like getInstructionCost, getUserCost, etc., we instead return a wrapper class that encodes an integer cost along with extra state. The extra state can be used to express: 1. A cost as infinitely expensive in order to prevent certain optimisations taking place. For example, there are already examples in LLVM where the cost is set extremely high, but not so high that it would cause overflow. This might be to prevent vectorisation in cases where we would have to scalarize the operation, which is particularly relevant for scalable vectors, where scalarisation is not [yet] available. There isn't currently a standard value for something that constitutes very expensive and we can replace all the magic numbers with a single invalid state. 2. A cost as unknown, where the user is simply unable to determine an accurate cost for an operation. This new wrapper class would work almost seamlessly with existing code as it would contain the full set of operators required for arithmetic and comparisons. This is in addition to the ability to create invalid costs and query the validity of an existing cost. Once a cost becomes invalid or unknown it will remain in that state regardless of any further arithmetic performed. Kind Regards, David Sherwood. -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20201105/6bf4a905/attachment.html>
David Sherwood via llvm-dev
2020-Nov-06 08:17 UTC
[llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model
Hi Chris, Thanks for the reply. My email was really to just ask if people were ok with the idea in principle and I kind of deliberately avoided getting into too many details at this point. If people are happy with the idea in principle I can push a patch up soon that shows what such a class could like so that people can comment on it? Regards, David Sherwood. From: Chris Tetreault <ctetreau at quicinc.com> Sent: 05 November 2020 19:23 To: David Sherwood <David.Sherwood at arm.com>; LLVM Dev <llvm-dev at lists.llvm.org> Subject: RE: [llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model You're being quite vague about what the extra state is. Is this because you haven't yet settled on what it should be, or do you actually intend to let it be a template parameter: template <typename T> struct Cost { unsigned Val; T State; } Thanks, Christopher Tetreault From: llvm-dev <llvm-dev-bounces at lists.llvm.org<mailto:llvm-dev-bounces at lists.llvm.org>> On Behalf Of David Sherwood via llvm-dev Sent: Thursday, November 5, 2020 7:43 AM To: llvm-dev at lists.llvm.org<mailto:llvm-dev at lists.llvm.org> Subject: [EXT] [llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model Hi, I'd like to propose a change to our cost interfaces so that instead of returning an unsigned value from functions like getInstructionCost, getUserCost, etc., we instead return a wrapper class that encodes an integer cost along with extra state. The extra state can be used to express: 1. A cost as infinitely expensive in order to prevent certain optimisations taking place. For example, there are already examples in LLVM where the cost is set extremely high, but not so high that it would cause overflow. This might be to prevent vectorisation in cases where we would have to scalarize the operation, which is particularly relevant for scalable vectors, where scalarisation is not [yet] available. There isn't currently a standard value for something that constitutes very expensive and we can replace all the magic numbers with a single invalid state. 2. A cost as unknown, where the user is simply unable to determine an accurate cost for an operation. This new wrapper class would work almost seamlessly with existing code as it would contain the full set of operators required for arithmetic and comparisons. This is in addition to the ability to create invalid costs and query the validity of an existing cost. Once a cost becomes invalid or unknown it will remain in that state regardless of any further arithmetic performed. Kind Regards, David Sherwood. -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20201106/c77b74b6/attachment.html>
Vineet Kumar via llvm-dev
2020-Nov-17 07:24 UTC
[llvm-dev] [Proposal] Introducing the concept of invalid costs to the IR cost model
Hi David, This would be a very useful upgrade to the cost model. One thing I want to add is that we need to be mindful of the cases where the cost is proportional (or inversely proportional) to the VF, for instance in the LoopVectorizationCostModel::selectVectorizationFactor(ElementCount MaxVF), there is a point where expected cost is divided by the VF. I believe there are other places where the instruction cost is dependent on the actual number of elements in the vector. While this is not a problem for fixed vectors, for scalable vectors we need to account for the vscale component of the VF. I guess using the polynomial type for the base cost type might work. Also, for scalable vectors, when making the cost based decision of whether to vectorize or not, we will need to consider the special case of comparing the scalable vectorization cost with the scalar loop cost, which is considered to be a fixed vector cost of VF=1. A simple solution might be to always assume that for scalable vectors, vectorization is always beneficial. Another option might be to assume that the vscale value is always at least 2, and compare the cost with the scalar loop based on that. Thanks and Regards, Vineet On 2020-11-05 9:12 p.m., David Sherwood via llvm-dev wrote:> > Hi, > > I'd like to propose a change to our cost interfaces so that instead of > returning > > an unsigned value from functions like getInstructionCost, getUserCost, > etc., we > > instead return a wrapper class that encodes an integer cost along with > extra > > state. The extra state can be used to express: > > 1. A cost as infinitely expensive in order to prevent certain > optimisations > > taking place. For example, there are already examples in LLVM where > the cost is > > set extremely high, but not so high that it would cause overflow. This > might be to > > prevent vectorisation in cases where we would have to scalarize the > operation, > > which is particularly relevant for scalable vectors, where > scalarisation is > > not [yet] available. There isn't currently a standard value for > something that > > constitutes very expensive and we can replace all the magic numbers with a > > single invalid state. > > 2. A cost as unknown, where the user is simply unable to determine an > accurate > > cost for an operation. > > This new wrapper class would work almost seamlessly with existing code > as it > > would contain the full set of operators required for arithmetic and > comparisons. > > This is in addition to the ability to create invalid costs and query > the validity > > of an existing cost. Once a cost becomes invalid or unknown it will > remain in that > > state regardless of any further arithmetic performed. > > Kind Regards, > > David Sherwood. > > > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-devhttp://bsc.es/disclaimer -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20201117/e6456a0c/attachment.html>
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