Villmow, Micah
2012-Sep-12 21:45 UTC
[LLVMdev] Proposal: New IR instruction for casting between address spaces
> -----Original Message----- > From: Mon P Wang [mailto:monping at apple.com] > Sent: Wednesday, September 12, 2012 1:12 PM > To: Villmow, Micah > Cc: Dan Gohman; llvmdev at cs.uiuc.edu > Subject: Re: [LLVMdev] Proposal: New IR instruction for casting between > address spaces > > Hi, > > On Sep 11, 2012, at 2:30 PM, Villmow, Micah wrote: > > > > > > >> -----Original Message----- > >> From: Dan Gohman [mailto:gohman at apple.com] > >> Sent: Tuesday, September 11, 2012 1:28 PM > >> To: Villmow, Micah > >> Cc: llvmdev at cs.uiuc.edu > >> Subject: Re: [LLVMdev] Proposal: New IR instruction for casting > between > >> address spaces > >> > >> On Sep 11, 2012, at 1:03 PM, "Villmow, Micah" > <Micah.Villmow at amd.com> > >> wrote: > >> > >>> > >>> From: Villmow, Micah > >>> Sent: Tuesday, September 11, 2012 12:51 PM > >>> To: llvm-commits at cs.uiuc.edu > >>> Subject: Proposal: New IR instruction for casting between address > >>> spaces > >>> > >>> Problem: > >>> Bit casting between pointers of different address spaces only works > if > >> all address space pointers are the same size. With changes from > email > >> chain [1][2], support for different pointer sizes breaks the bitcast > >> instruction since there is no guarantee that the pointer size for > the > >> address space is on the source and destination arguments are of the > same > >> size. > >> > >> Can you comment on whether the need for this seems like a > fundamental > >> need, in your field, or more of a limitation of the current > generation > >> of architectures? > > [Villmow, Micah] I think this is a little of both. While the current > and previous generation of GPU architectures are limited in what they > are capable of doing based on hardware restrictions, I also think there > is a fundamental need. Not all devices will run with 64bit operations > at full speed(or even have native instructions in any case), but memory > sizes will soon eclipse what is addressable with 32bit pointers on non- > PC systems. What this is causing is 32bit systems requiring addressing > into 64bit memory and switching over to 64bit for address calculations > destroys the performance advantage that the segmented memory provides. > > In the CPU world, this isn't that much of a problem that I can tell > as they have already been solved(32bit vs 64bit math is 1-1 in most > cases), but in non-CPU architectures, this is a huge performance > penalty(64bit mul runs 6x slower than 32bit mul). So being able to > switch to 32bit in the cases where it is required and switch to 64bit > where it is required is a fundamental need that I don't think will go > away even if the architectures improve their memory infrastructure. > >> > >>> Solution: > >>> Remove the ability of bitcast to cast between pointers of different > >> address spaces and replace with an instruction that handles this > case > >> explicitely. > >>> > >>> Proposed changes: > >>> * Add restriction to the verifier on the bitcast > instruction > >> making bitcasting between address spaces illegal. > >>> * Change documentation[3] to state the bitcast to pointers > of > >> different address spaces is illegal. > >>> * Add in a new IR node, addrspacecast, that allows > conversions > >> between address spaces > >>> * Updated the reader/writer to handle these cases > >>> * Update the documentation to insert the new IR node. > >>> * Add the following documentation: > >>> 'addrspacecast .. to' Instruction > >>> > >>> Syntax: > >>> > >>> <result> = addrspacecast <ty> <value> to <ty2> ; > yields > >> ty2 > >>> Overview: > >>> > >>> The ' addrspacecast ' instruction converts value to type ty2 > without > >> changing any bits. > >> > >> This is mildly imprecise, because the whole point of this > instruction is > >> that it can change the bit width. > > [Villmow, Micah] Doh, cut and paste error, will fix it. > >> > >>> > >>> Arguments: > >>> > >>> The ' addrspacecast ' instruction takes a value to cast, which must > be > >> a non-aggregate first class value with a pointer type, and a type to > >> cast it to, which must also be a pointer type. The pointer types of > >> value and the destination type, ty2, must be identical, except for > the > >> address space. > >> > >> Having a "pointer type" is sufficient to imply that it is a "non- > >> aggregate first class value". > >> > >>> > >>> Semantics: > >>> > >>> The ' addrspacecast ' instruction converts value to type ty2. It > >> converts the type to the type that is implied by the address space > of > >> the destination pointer. If the destination pointer is smaller than > the > >> source pointer, the upper bits are truncated. If the inverse is > true, > >> the upper bits are sign extended, otherwise the operation is a no- > op. > >> > >> Why sign-extended? Ptrtoint/inttoptr are zero-extended, and it's > >> surprising that addrspacecast would be different from them. > > [Villmow, Micah] Take for example a pointer representing a negative > pointer offset into a 16 bit address space, if this is converted to a > 64bit address space, the upper 48 bits would be zero and your negative > offset just became positive. The difference between these two > instruction types is that addrspacecast does not explicitly convert to > any size, only implicitly, so the bits would need to be filled > correctly. > >> > > I view a pointer as pointing to a location in memory and not as an > offset relative to some base register. I think the proper semantic > here is the same as inttoptr where it does a zero-extension.[Villmow, Micah] Yeah, but the pointer won't point to the same location if the conversion from a smaller pointer to a larger pointer is zero extended. Take two address spaces(1 and 2) that are 16 and 64 bits in size. int(1) *a = 0xFFFFFFF9; int(2) *b = *a; Is b -10(SExt), or is it 4294967289(ZExt)? This works for inttoptr and ptrtoint because there is an assumption that the pointer is always the same size. Maybe we even need to extend ptrtoint/inttoptr to handle this case by adding unsigned versions?> > -- Mon Ping > > > > > >> Dan > >> > > > > > > > > _______________________________________________ > > LLVM Developers mailing list > > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >
Mon Ping Wang
2012-Sep-13 08:55 UTC
[LLVMdev] Proposal: New IR instruction for casting between address spaces
On Sep 12, 2012, at 2:45 PM, "Villmow, Micah" <Micah.Villmow at amd.com> wrote:> > >> -----Original Message----- >> From: Mon P Wang [mailto:monping at apple.com] >> Sent: Wednesday, September 12, 2012 1:12 PM >> To: Villmow, Micah >> Cc: Dan Gohman; llvmdev at cs.uiuc.edu >> Subject: Re: [LLVMdev] Proposal: New IR instruction for casting between >> address spaces >> >> Hi, >> >> On Sep 11, 2012, at 2:30 PM, Villmow, Micah wrote: >> >>> >>> >>>> -----Original Message----- >>>> From: Dan Gohman [mailto:gohman at apple.com] >>>> Sent: Tuesday, September 11, 2012 1:28 PM >>>> To: Villmow, Micah >>>> Cc: llvmdev at cs.uiuc.edu >>>> Subject: Re: [LLVMdev] Proposal: New IR instruction for casting >> between >>>> address spaces >>>> >>>> On Sep 11, 2012, at 1:03 PM, "Villmow, Micah" >> <Micah.Villmow at amd.com> >>>> wrote: >>>> >>>>> >>>>> From: Villmow, Micah >>>>> Sent: Tuesday, September 11, 2012 12:51 PM >>>>> To: llvm-commits at cs.uiuc.edu >>>>> Subject: Proposal: New IR instruction for casting between address >>>>> spaces >>>>> >>>>> Problem: >>>>> Bit casting between pointers of different address spaces only works >> if >>>> all address space pointers are the same size. With changes from >> email >>>> chain [1][2], support for different pointer sizes breaks the bitcast >>>> instruction since there is no guarantee that the pointer size for >> the >>>> address space is on the source and destination arguments are of the >> same >>>> size. >>>> >>>> Can you comment on whether the need for this seems like a >> fundamental >>>> need, in your field, or more of a limitation of the current >> generation >>>> of architectures? >>> [Villmow, Micah] I think this is a little of both. While the current >> and previous generation of GPU architectures are limited in what they >> are capable of doing based on hardware restrictions, I also think there >> is a fundamental need. Not all devices will run with 64bit operations >> at full speed(or even have native instructions in any case), but memory >> sizes will soon eclipse what is addressable with 32bit pointers on non- >> PC systems. What this is causing is 32bit systems requiring addressing >> into 64bit memory and switching over to 64bit for address calculations >> destroys the performance advantage that the segmented memory provides. >>> In the CPU world, this isn't that much of a problem that I can tell >> as they have already been solved(32bit vs 64bit math is 1-1 in most >> cases), but in non-CPU architectures, this is a huge performance >> penalty(64bit mul runs 6x slower than 32bit mul). So being able to >> switch to 32bit in the cases where it is required and switch to 64bit >> where it is required is a fundamental need that I don't think will go >> away even if the architectures improve their memory infrastructure. >>>> >>>>> Solution: >>>>> Remove the ability of bitcast to cast between pointers of different >>>> address spaces and replace with an instruction that handles this >> case >>>> explicitely. >>>>> >>>>> Proposed changes: >>>>> * Add restriction to the verifier on the bitcast >> instruction >>>> making bitcasting between address spaces illegal. >>>>> * Change documentation[3] to state the bitcast to pointers >> of >>>> different address spaces is illegal. >>>>> * Add in a new IR node, addrspacecast, that allows >> conversions >>>> between address spaces >>>>> * Updated the reader/writer to handle these cases >>>>> * Update the documentation to insert the new IR node. >>>>> * Add the following documentation: >>>>> 'addrspacecast .. to' Instruction >>>>> >>>>> Syntax: >>>>> >>>>> <result> = addrspacecast <ty> <value> to <ty2> ; >> yields >>>> ty2 >>>>> Overview: >>>>> >>>>> The ' addrspacecast ' instruction converts value to type ty2 >> without >>>> changing any bits. >>>> >>>> This is mildly imprecise, because the whole point of this >> instruction is >>>> that it can change the bit width. >>> [Villmow, Micah] Doh, cut and paste error, will fix it. >>>> >>>>> >>>>> Arguments: >>>>> >>>>> The ' addrspacecast ' instruction takes a value to cast, which must >> be >>>> a non-aggregate first class value with a pointer type, and a type to >>>> cast it to, which must also be a pointer type. The pointer types of >>>> value and the destination type, ty2, must be identical, except for >> the >>>> address space. >>>> >>>> Having a "pointer type" is sufficient to imply that it is a "non- >>>> aggregate first class value". >>>> >>>>> >>>>> Semantics: >>>>> >>>>> The ' addrspacecast ' instruction converts value to type ty2. It >>>> converts the type to the type that is implied by the address space >> of >>>> the destination pointer. If the destination pointer is smaller than >> the >>>> source pointer, the upper bits are truncated. If the inverse is >> true, >>>> the upper bits are sign extended, otherwise the operation is a no- >> op. >>>> >>>> Why sign-extended? Ptrtoint/inttoptr are zero-extended, and it's >>>> surprising that addrspacecast would be different from them. >>> [Villmow, Micah] Take for example a pointer representing a negative >> pointer offset into a 16 bit address space, if this is converted to a >> 64bit address space, the upper 48 bits would be zero and your negative >> offset just became positive. The difference between these two >> instruction types is that addrspacecast does not explicitly convert to >> any size, only implicitly, so the bits would need to be filled >> correctly. >>>> >> >> I view a pointer as pointing to a location in memory and not as an >> offset relative to some base register. I think the proper semantic >> here is the same as inttoptr where it does a zero-extension. > [Villmow, Micah] Yeah, but the pointer won't point to the same location if the conversion from a smaller pointer to a larger pointer is zero extended. > Take two address spaces(1 and 2) that are 16 and 64 bits in size. > int(1) *a = 0xFFFFFFF9; > int(2) *b = *a; > Is b -10(SExt), or is it 4294967289(ZExt)?I think you mean if is it -10 (Sext) or 65529 (Zext from 16b to 64b)? I would expect the same result if I wrote int(1) *a = 0x0FFF9; int(2) *b = *a; In C, integer to point conversions are implementation defined and depends on what the addressing structure of the execution environment is. Given the current definition of ptrtoint and intoptr, I feel that the addressing structure feels like a flat memory model starting from 0 and the value "b" should be 65529. In your example where we know the largest pointer is 64b, I would expect the final result to be the same as doing a ptrtoint from int(1) to i64 and intotptr to int(2)*. -- Mon Ping> This works for inttoptr and ptrtoint because there is an assumption that the pointer is always the same size. Maybe we even need to extend ptrtoint/inttoptr to handle this case by adding unsigned versions?> >> >> -- Mon Ping >> >> >> >> >>>> Dan >>>> >>> >>> >>> >>> _______________________________________________ >>> LLVM Developers mailing list >>> LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu >>> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >> > > > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
Villmow, Micah
2012-Sep-13 14:51 UTC
[LLVMdev] Proposal: New IR instruction for casting between address spaces
> -----Original Message----- > From: Mon Ping Wang [mailto:monping at apple.com] > Sent: Thursday, September 13, 2012 1:55 AM > To: Villmow, Micah > Cc: llvmdev at cs.uiuc.edu > Subject: Re: [LLVMdev] Proposal: New IR instruction for casting between > address spaces > > > On Sep 12, 2012, at 2:45 PM, "Villmow, Micah" <Micah.Villmow at amd.com> > wrote: > > > > > > >> -----Original Message----- > >> From: Mon P Wang [mailto:monping at apple.com] > >> Sent: Wednesday, September 12, 2012 1:12 PM > >> To: Villmow, Micah > >> Cc: Dan Gohman; llvmdev at cs.uiuc.edu > >> Subject: Re: [LLVMdev] Proposal: New IR instruction for casting > >> between address spaces > >> > >> Hi, > >> > >> On Sep 11, 2012, at 2:30 PM, Villmow, Micah wrote: > >> > >>> > >>> > >>>> -----Original Message----- > >>>> From: Dan Gohman [mailto:gohman at apple.com] > >>>> Sent: Tuesday, September 11, 2012 1:28 PM > >>>> To: Villmow, Micah > >>>> Cc: llvmdev at cs.uiuc.edu > >>>> Subject: Re: [LLVMdev] Proposal: New IR instruction for casting > >> between > >>>> address spaces > >>>> > >>>> On Sep 11, 2012, at 1:03 PM, "Villmow, Micah" > >> <Micah.Villmow at amd.com> > >>>> wrote: > >>>> > >>>>> > >>>>> From: Villmow, Micah > >>>>> Sent: Tuesday, September 11, 2012 12:51 PM > >>>>> To: llvm-commits at cs.uiuc.edu > >>>>> Subject: Proposal: New IR instruction for casting between address > >>>>> spaces > >>>>> > >>>>> Problem: > >>>>> Bit casting between pointers of different address spaces only > >>>>> works > >> if > >>>> all address space pointers are the same size. With changes from > >> email > >>>> chain [1][2], support for different pointer sizes breaks the > >>>> bitcast instruction since there is no guarantee that the pointer > >>>> size for > >> the > >>>> address space is on the source and destination arguments are of the > >> same > >>>> size. > >>>> > >>>> Can you comment on whether the need for this seems like a > >> fundamental > >>>> need, in your field, or more of a limitation of the current > >> generation > >>>> of architectures? > >>> [Villmow, Micah] I think this is a little of both. While the current > >> and previous generation of GPU architectures are limited in what they > >> are capable of doing based on hardware restrictions, I also think > >> there is a fundamental need. Not all devices will run with 64bit > >> operations at full speed(or even have native instructions in any > >> case), but memory sizes will soon eclipse what is addressable with > >> 32bit pointers on non- PC systems. What this is causing is 32bit > >> systems requiring addressing into 64bit memory and switching over to > >> 64bit for address calculations destroys the performance advantage > that the segmented memory provides. > >>> In the CPU world, this isn't that much of a problem that I can tell > >> as they have already been solved(32bit vs 64bit math is 1-1 in most > >> cases), but in non-CPU architectures, this is a huge performance > >> penalty(64bit mul runs 6x slower than 32bit mul). So being able to > >> switch to 32bit in the cases where it is required and switch to 64bit > >> where it is required is a fundamental need that I don't think will go > >> away even if the architectures improve their memory infrastructure. > >>>> > >>>>> Solution: > >>>>> Remove the ability of bitcast to cast between pointers of > >>>>> different > >>>> address spaces and replace with an instruction that handles this > >> case > >>>> explicitely. > >>>>> > >>>>> Proposed changes: > >>>>> * Add restriction to the verifier on the bitcast > >> instruction > >>>> making bitcasting between address spaces illegal. > >>>>> * Change documentation[3] to state the bitcast to pointers > >> of > >>>> different address spaces is illegal. > >>>>> * Add in a new IR node, addrspacecast, that allows > >> conversions > >>>> between address spaces > >>>>> * Updated the reader/writer to handle these cases > >>>>> * Update the documentation to insert the new IR node. > >>>>> * Add the following documentation: > >>>>> 'addrspacecast .. to' Instruction > >>>>> > >>>>> Syntax: > >>>>> > >>>>> <result> = addrspacecast <ty> <value> to <ty2> ; > >> yields > >>>> ty2 > >>>>> Overview: > >>>>> > >>>>> The ' addrspacecast ' instruction converts value to type ty2 > >> without > >>>> changing any bits. > >>>> > >>>> This is mildly imprecise, because the whole point of this > >> instruction is > >>>> that it can change the bit width. > >>> [Villmow, Micah] Doh, cut and paste error, will fix it. > >>>> > >>>>> > >>>>> Arguments: > >>>>> > >>>>> The ' addrspacecast ' instruction takes a value to cast, which > >>>>> must > >> be > >>>> a non-aggregate first class value with a pointer type, and a type > >>>> to cast it to, which must also be a pointer type. The pointer types > >>>> of value and the destination type, ty2, must be identical, except > >>>> for > >> the > >>>> address space. > >>>> > >>>> Having a "pointer type" is sufficient to imply that it is a "non- > >>>> aggregate first class value". > >>>> > >>>>> > >>>>> Semantics: > >>>>> > >>>>> The ' addrspacecast ' instruction converts value to type ty2. It > >>>> converts the type to the type that is implied by the address space > >> of > >>>> the destination pointer. If the destination pointer is smaller than > >> the > >>>> source pointer, the upper bits are truncated. If the inverse is > >> true, > >>>> the upper bits are sign extended, otherwise the operation is a no- > >> op. > >>>> > >>>> Why sign-extended? Ptrtoint/inttoptr are zero-extended, and it's > >>>> surprising that addrspacecast would be different from them. > >>> [Villmow, Micah] Take for example a pointer representing a negative > >> pointer offset into a 16 bit address space, if this is converted to a > >> 64bit address space, the upper 48 bits would be zero and your > >> negative offset just became positive. The difference between these > >> two instruction types is that addrspacecast does not explicitly > >> convert to any size, only implicitly, so the bits would need to be > >> filled correctly. > >>>> > >> > >> I view a pointer as pointing to a location in memory and not as an > >> offset relative to some base register. I think the proper semantic > >> here is the same as inttoptr where it does a zero-extension. > > [Villmow, Micah] Yeah, but the pointer won't point to the same > location if the conversion from a smaller pointer to a larger pointer is > zero extended. > > Take two address spaces(1 and 2) that are 16 and 64 bits in size. > > int(1) *a = 0xFFFFFFF9; > > int(2) *b = *a; > > Is b -10(SExt), or is it 4294967289(ZExt)? > > I think you mean if is it -10 (Sext) or 65529 (Zext from 16b to 64b)? > > I would expect the same result if I wrote > int(1) *a = 0x0FFF9; > int(2) *b = *a; > > In C, integer to point conversions are implementation defined and > depends on what the addressing structure of the execution environment > is. Given the current definition of ptrtoint and intoptr, I feel that > the addressing structure feels like a flat memory model starting from 0 > and the value "b" should be 65529. In your example where we know the > largest pointer is 64b, I would expect the final result to be the same > as doing a ptrtoint from int(1) to i64 and intotptr to int(2)*.[Villmow, Micah] So then if there is already a way to do this, what really is the benefit of adding a new instruction? Also there is a typo in my example, the second assignment should not have the '*'. I can add a new instruction if that is the recommended behavior, but I think it would also be fine to force ptrtoint and inttoptr, although it does take one instruction more.> > -- Mon Ping > > > This works for inttoptr and ptrtoint because there is an assumption > that the pointer is always the same size. Maybe we even need to extend > ptrtoint/inttoptr to handle this case by adding unsigned versions? > > > > > > > > >> > >> -- Mon Ping > >> > >> > >> > >> > >>>> Dan > >>>> > >>> > >>> > >>> > >>> _______________________________________________ > >>> LLVM Developers mailing list > >>> LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > >>> http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > >> > > > > > > > > _______________________________________________ > > LLVM Developers mailing list > > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >
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