Making drm_gpuvm work across gpu devices
Zeng, Oak
oak.zeng at intel.com
Mon Jan 29 20:09:24 UTC 2024
Hi Christian,
Even though this email thread was started to discuss shared virtual address space b/t multiple GPU devices, I eventually found you even don’t agree with a shared virtual address space b/t CPU and GPU program. So let’s forget about multiple GPU devices for now. I will try explain the shared address space b/t cpu and one gpu.
HMM was designed to solve the GPU programmability problem with a very fundamental assumption which is GPU program shares a same virtual address space with CPU program, for example, with HMM any CPU pointers (such as malloc’ed, stack variables and globals) can be used directly on you GPU shader program. Are you against this design goal? HMM is already part of linux core MM and Linus approved this design. CC’ed Jérôme.
Here is an example of how application can use system allocator (hmm), I copied from https://developer.nvidia.com/blog/simplifying-gpu-application-development-with-heterogeneous-memory-management/. CC’ed a few Nvidia folks.
void sortfile(FILE* fp, int N) {
char* data;
data = (char*)malloc(N);
fread(data, 1, N, fp);
qsort<<<...>>>(data, N, 1, cmp);
cudaDeviceSynchronize();
use_data(data);
free(data)
}
As you can see, malloced ptr is used directly in GPU program, no userptr ioctl, no vm_bind. This is the model Intel also want to support, besides AMD and Nvidia.
Lastly, nouveau in the kernel already support hmm and system allocator. It also support shared virtual address space b/t CPU and GPU program. All the codes already merged upstream.
See also comments inline to your questions.
I will address your other email separately.
Regards,
Oak
From: Christian König <christian.koenig at amd.com>
Sent: Monday, January 29, 2024 5:11 AM
To: Zeng, Oak <oak.zeng at intel.com>; David Airlie <airlied at redhat.com>
Cc: Ghimiray, Himal Prasad <himal.prasad.ghimiray at intel.com>; Thomas.Hellstrom at linux.intel.com; Winiarski, Michal <michal.winiarski at intel.com>; Felix Kuehling <felix.kuehling at amd.com>; Welty, Brian <brian.welty at intel.com>; Shah, Ankur N <ankur.n.shah at intel.com>; dri-devel at lists.freedesktop.org; intel-xe at lists.freedesktop.org; Gupta, saurabhg <saurabhg.gupta at intel.com>; Danilo Krummrich <dakr at redhat.com>; Daniel Vetter <daniel at ffwll.ch>; Brost, Matthew <matthew.brost at intel.com>; Bommu, Krishnaiah <krishnaiah.bommu at intel.com>; Vishwanathapura, Niranjana <niranjana.vishwanathapura at intel.com>
Subject: Re: Making drm_gpuvm work across gpu devices
Am 26.01.24 um 21:13 schrieb Zeng, Oak:
-----Original Message-----
From: Christian König <christian.koenig at amd.com><mailto:christian.koenig at amd.com>
Sent: Friday, January 26, 2024 5:10 AM
To: Zeng, Oak <oak.zeng at intel.com><mailto:oak.zeng at intel.com>; David Airlie <airlied at redhat.com><mailto:airlied at redhat.com>
Cc: Ghimiray, Himal Prasad <himal.prasad.ghimiray at intel.com><mailto:himal.prasad.ghimiray at intel.com>;
Thomas.Hellstrom at linux.intel.com<mailto:Thomas.Hellstrom at linux.intel.com>; Winiarski, Michal
<michal.winiarski at intel.com><mailto:michal.winiarski at intel.com>; Felix Kuehling <felix.kuehling at amd.com><mailto:felix.kuehling at amd.com>; Welty,
Brian <brian.welty at intel.com><mailto:brian.welty at intel.com>; Shah, Ankur N <ankur.n.shah at intel.com><mailto:ankur.n.shah at intel.com>; dri-
devel at lists.freedesktop.org<mailto:devel at lists.freedesktop.org>; intel-xe at lists.freedesktop.org<mailto:intel-xe at lists.freedesktop.org>; Gupta, saurabhg
<saurabhg.gupta at intel.com><mailto:saurabhg.gupta at intel.com>; Danilo Krummrich <dakr at redhat.com><mailto:dakr at redhat.com>; Daniel
Vetter <daniel at ffwll.ch><mailto:daniel at ffwll.ch>; Brost, Matthew <matthew.brost at intel.com><mailto:matthew.brost at intel.com>; Bommu,
Krishnaiah <krishnaiah.bommu at intel.com><mailto:krishnaiah.bommu at intel.com>; Vishwanathapura, Niranjana
<niranjana.vishwanathapura at intel.com><mailto:niranjana.vishwanathapura at intel.com>
Subject: Re: Making drm_gpuvm work across gpu devices
Hi Oak,
you can still use SVM, but it should not be a design criteria for the
kernel UAPI. In other words the UAPI should be designed in such a way
that the GPU virtual address can be equal to the CPU virtual address of
a buffer, but can also be different to support use cases where this
isn't the case.
Terminology:
SVM: any technology which can achieve a shared virtual address space b/t cpu and devices. The virtual address space can be managed by user space or kernel space. Intel implemented a SVM, based on the BO-centric gpu driver (gem-create, vm-bind) where virtual address space is managed by UMD.
System allocator: another way of implement SVM. User just use malloc'ed memory for gpu submission. Virtual address space is managed by Linux core mm. In practice, we leverage HMM to implement system allocator.
This article described details of all those different model: https://developer.nvidia.com/blog/simplifying-gpu-application-development-with-heterogeneous-memory-management/
Our programming model allows a mixture use of system allocator (even though system allocator is ) and traditional vm_bind (where cpu address can != gpu address). Let me re-post the pseudo codes:
1. Fd0 = open(/"dev/dri/render0")
2. Fd1 = open("/dev/dri/render1")
3. Fd3 = open("/dev/dri/xe-svm")
4. Gpu_Vm0 =xe_vm_create(fd0)
5. Gpu_Vm1 = xe_vm_create(fd1)
6. Queue0 = xe_exec_queue_create(fd0, gpu_vm0)
7. Queue1 = xe_exec_queue_create(fd1, gpu_vm1)
8. ptr = malloc()
9. bo = xe_bo_create(fd0)
10. Vm_bind(bo, gpu_vm0, va)//va is from UMD, cpu can access bo with same or different va. It is UMD's responsibility that va doesn't conflict with malloc'ed PTRs.
11. Xe_exec(queue0, ptr)//submit gpu job which use ptr, on card0
12. Xe_exec(queue1, ptr)//submit gpu job which use ptr, on card1
13. Xe_exec(queue0, va)//submit gpu job which use va, on card0
In above codes, the va used in vm_bind (line 10, Intel's API to bind an object to a va for GPU access) can be different from the CPU address when cpu access the same object. But whenever user use malloc'ed ptr for GPU submission (line 11, 12, so called system allocator), it implies CPU and GPUs use the same ptr to access.
In above vm_bind, it is user/UMD's responsibility to guarantee that vm_bind va doesn't conflict with malloc'ed ptr. Otherwise it is treated as programming error.
I think this design still meets your design restrictions.
Well why do you need this "Fd3 = open("/dev/dri/xe-svm")" ?
As far as I see fd3 isn't used anywhere.
We use fd3 for memory hints ioctls (I didn’t write in above program). Under the picture of system allocator, memory hint is applied to a virtual address range in a process, not specific to one GPU device. So we can’t use fd1 and fd2 for this purpose. For example, you can set the preferred memory location of a address range to be on gpu device1’s memory.
What you can do is to bind parts of your process address space to your driver connections (fd1, fd2 etc..) with a vm_bind(), but this should *not* come because of implicitely using some other file descriptor in the process.
We already have a vm_bind api which is used for a split CPU and GPU virtual address space (means GPU virtual address space can != CPU virtual address space.) for KMD. In this case, it is UMD’s responsibility to manage the whole virtual address space. UMD can make the CPU VA ==GPU VA or CPU VA!=GPU VA. It doesn’t matter for KMD. We already have this thing working. We also used this approach to achieve a shared virtual address space b/t CPU and GPU, where UMD managed to make CPU VA == GPU VA.
All the discussion in this email thread was triggered by our effort to support system allocator, which means application can use CPU pointers directly on GPU shader program *without* extra driver IOCTL call. The purpose of this programming model is to further simplify the GPU programming across all programming languages. By the definition of system allocator, GPU va is always == CPU VA.
Our API/xeKmd is designed to work for both of above two programming model.
As far as I can see this design is exactly what failed so badly with KFD.
Regards,
Christian.
Additionally to what Dave wrote I can summarize a few things I have
learned while working on the AMD GPU drivers in the last decade or so:
1. Userspace requirements are *not* relevant for UAPI or even more
general kernel driver design.
2. What should be done is to look at the hardware capabilities and try
to expose those in a save manner to userspace.
3. The userspace requirements are then used to validate the kernel
driver and especially the UAPI design to ensure that nothing was missed.
The consequence of this is that nobody should ever use things like Cuda,
Vulkan, OpenCL, OpenGL etc.. as argument to propose a certain UAPI design.
What should be done instead is to say: My hardware works in this and
that way -> we want to expose it like this -> because that enables us to
implement the high level API in this and that way.
Only this gives then a complete picture of how things interact together
and allows the kernel community to influence and validate the design.
What you described above is mainly bottom up. I know other people do top down, or whole system vertical HW-SW co-design. I don't have strong opinion here.
Regards,
Oak
This doesn't mean that you need to throw away everything, but it gives a
clear restriction that designs are not nailed in stone and for example
you can't use something like a waterfall model.
Going to answer on your other questions separately.
Regards,
Christian.
Am 25.01.24 um 06:25 schrieb Zeng, Oak:
Hi Dave,
Let me step back. When I wrote " shared virtual address space b/t cpu and all
gpu devices is a hard requirement for our system allocator design", I meant this is
not only Intel's design requirement. Rather this is a common requirement for
both Intel, AMD and Nvidia. Take a look at cuda driver API definition of
cuMemAllocManaged (search this API on https://docs.nvidia.com/cuda/cuda-
driver-api/group__CUDA__MEM.html#group__CUDA__MEM), it said:
"The pointer is valid on the CPU and on all GPUs in the system that support
managed memory."
This means the program virtual address space is shared b/t CPU and all GPU
devices on the system. The system allocator we are discussing is just one step
advanced than cuMemAllocManaged: it allows malloc'ed memory to be shared
b/t CPU and all GPU devices.
I hope we all agree with this point.
With that, I agree with Christian that in kmd we should make driver code per-
device based instead of managing all devices in one driver instance. Our system
allocator (and generally xekmd)design follows this rule: we make xe_vm per
device based - one device is *not* aware of other device's address space, as I
explained in previous email. I started this email seeking a one drm_gpuvm
instance to cover all GPU devices. I gave up this approach (at least for now) per
Danilo and Christian's feedback: We will continue to have per device based
drm_gpuvm. I hope this is aligned with Christian but I will have to wait for
Christian's reply to my previous email.
I hope this clarify thing a little.
Regards,
Oak
-----Original Message-----
From: dri-devel <dri-devel-bounces at lists.freedesktop.org><mailto:dri-devel-bounces at lists.freedesktop.org> On Behalf Of
David
Airlie
Sent: Wednesday, January 24, 2024 8:25 PM
To: Zeng, Oak <oak.zeng at intel.com><mailto:oak.zeng at intel.com>
Cc: Ghimiray, Himal Prasad <himal.prasad.ghimiray at intel.com><mailto:himal.prasad.ghimiray at intel.com>;
Thomas.Hellstrom at linux.intel.com<mailto:Thomas.Hellstrom at linux.intel.com>; Winiarski, Michal
<michal.winiarski at intel.com><mailto:michal.winiarski at intel.com>; Felix Kuehling <felix.kuehling at amd.com><mailto:felix.kuehling at amd.com>;
Welty,
Brian <brian.welty at intel.com><mailto:brian.welty at intel.com>; Shah, Ankur N <ankur.n.shah at intel.com><mailto:ankur.n.shah at intel.com>;
dri-
devel at lists.freedesktop.org<mailto:devel at lists.freedesktop.org>; intel-xe at lists.freedesktop.org<mailto:intel-xe at lists.freedesktop.org>; Gupta, saurabhg
<saurabhg.gupta at intel.com><mailto:saurabhg.gupta at intel.com>; Danilo Krummrich <dakr at redhat.com><mailto:dakr at redhat.com>; Daniel
Vetter <daniel at ffwll.ch><mailto:daniel at ffwll.ch>; Brost, Matthew <matthew.brost at intel.com><mailto:matthew.brost at intel.com>;
Bommu,
Krishnaiah <krishnaiah.bommu at intel.com><mailto:krishnaiah.bommu at intel.com>; Vishwanathapura, Niranjana
<niranjana.vishwanathapura at intel.com><mailto:niranjana.vishwanathapura at intel.com>; Christian König
<christian.koenig at amd.com><mailto:christian.koenig at amd.com>
Subject: Re: Making drm_gpuvm work across gpu devices
For us, Xekmd doesn't need to know it is running under bare metal or
virtualized environment. Xekmd is always a guest driver. All the virtual address
used in xekmd is guest virtual address. For SVM, we require all the VF devices
share one single shared address space with guest CPU program. So all the
design
works in bare metal environment can automatically work under virtualized
environment. + at Shah, Ankur N + at Winiarski, Michal to backup me if I am
wrong.
Again, shared virtual address space b/t cpu and all gpu devices is a hard
requirement for our system allocator design (which means malloc’ed memory,
cpu stack variables, globals can be directly used in gpu program. Same
requirement as kfd SVM design). This was aligned with our user space
software
stack.
Just to make a very general point here (I'm hoping you listen to
Christian a bit more and hoping he replies in more detail), but just
because you have a system allocator design done, it doesn't in any way
enforce the requirements on the kernel driver to accept that design.
Bad system design should be pushed back on, not enforced in
implementation stages. It's a trap Intel falls into regularly since
they say well we already agreed this design with the userspace team
and we can't change it now. This isn't acceptable. Design includes
upstream discussion and feedback, if you say misdesigned the system
allocator (and I'm not saying you definitely have), and this is
pushing back on that, then you have to go fix your system
architecture.
KFD was an experiment like this, I pushed back on AMD at the start
saying it was likely a bad plan, we let it go and got a lot of
experience in why it was a bad design.
Dave.
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