[Mesa-dev] [Intel-gfx] [RFC 2/2] drm/doc/rfc: i915 new parallel submission uAPI plan

[Christian König]

Am 20.05.21 um 23:38 schrieb Jason Ekstrand:
> On Thu, May 20, 2021 at 10:46 AM Matthew Brost <matthew.brost at intel.com> wrote:
>> On Thu, May 20, 2021 at 01:11:59PM +0200, Christian König wrote:
>>> Am 19.05.21 um 18:51 schrieb Matthew Brost:
>>>> On Wed, May 19, 2021 at 01:45:39PM +0200, Christian König wrote:
>>>>> Oh, yeah we call that gang submit on the AMD side.
>>>>>
>>>>> Had already some internal discussions how to implement this, but so far
>>>>> couldn't figure out how to cleanly introduce that into the DRM scheduler.
>>>>>
>>>>> Can you briefly describe in a few words how that is supposed to work on the
>>>>> Intel side?
> On Intel, we actually have two cases which don't fit the current
> drm/scheduler model well: balanced and bonded.
>
> In the balanced model, we want to submit a batch which can go to any
> one of some set of engines and we don't care which.  It's up to the
> kernel to pick an engine.  Imagine you had 64 identical HW compute
> queues, for instance.  This could be done by making all the identical
> engines share a single drm_gpu_scheduler and round-robin around the HW
> queues or something.  I don't know that we strictly need drm/scheduler
> to be aware of it but it might be nice if it grew support for this
> mode so we could maintain a 1:1 relationship between HW queues and
> drm_gpu_schedulers.  That said, I'm not sure how this would play with
> GuC queues so maybe it doesn't help?

Oh, we do have support for load balancing like that.

When you call drm_sched_entity_init() you can give a list of 
drm_gpu_scheduler object to use round robing for scheduling.

New jobs are then scheduler to the drm_gpu_scheduler instance which is 
idle or rather the least busy one.

> The bonded model is like your ganged, I think.  We want to submit N
> batches to run in parallel.  And they actually have to be executing on
> the GPU simultaneously and not just sort-of at similar times.  We need
> this for video.  There are also potential use-cases in Vulkan or even
> GL that might be able to use this.  One difference with the balanced
> mode is that bonds don't, strictly speaking, need to be on the same
> type of engine.  Imagine, for instance, a 3D batch with a parallel
> compute batch doing vertex pre-processing.
>
> I'm pretty sure the bonded case is something that the mobile drivers
> (panfrost, etc.) would like as well for doing Vulkan on tilers where
> you often have to have two command buffers running in parallel.
> They're currently doing it by submitting a giant pile of batches where
> they split the batch and add sync primitives every time some GL call
> requires them to sync between fragment and vertex pipes.

Yeah, we have exactly the same problem as well.

But so far every model we discussed has some drawbacks and it is rather 
hard for the scheduler to guarantee that stuff runs at the same time.

So if you got any ideas how to cleanly implement that then they would be 
rather welcomed.

Regards,
Christian.

>
> So, to sum up, I think there's likely some good collaboration to be
> had here for everyone. :-)
>
> --Jason
>
>>>> Sure, I've done a quick PoC internally and have been able to hook this
>>>> into the DRM scheduler.
>>>>
>>>> Basically each BB still maps to a single job as each job is somewhat
>>>> unique (e.g. each job has its own ring, lrc, seqno, etc...). However all
>>>> the jobs configured to run in parallel map to a single sched_entity
>>>> which maintains the order each job was generated from the execbuf IOCTL
>>>> (1 - N). When the backend receives jobs 1 to N - 1 it basically just
>>>> updates some internal state. When the backend sees job N (last job) it
>>>> actually does the submit for jobs 1 - N which with GuC submission is a
>>>> simple command moving the LRC tail of the N jobs.
>>>>
>>>> Daniel has suggested that we create a single job for the NN BBs but that
>>>> would be huge rework to the internals of the i915 and likely won't
>>>> happen by the time this code first lands.
>>>>
>>>> Also worth noting one way a job isn't really a treated individually is
>>>> the excl slot with dma-resv. In that case we create a composite fence of
>>>> all jobs (dma_fence_array).
>>> Yeah, that's something we have discussed as well.
>>>
>>> How do you prevent the scheduler from over committing to a single ring
>>> buffer in this scenario?
>>>
>> Each job has its own ring, the execbuf IOCTL throttles itself for each
>> job if there isn't space in the ring. This is exactly the same as
>> non-parallel submits.
>>
>> I think this is what you were asking? If not, maybe try explaining the
>> question a bit more.
>>
>> Matt
>>
>>> Christian.
>>>
>>>> Matt
>>>>
>>>>> Thanks,
>>>>> Christian.
>>>>>
>>>>> Am 19.05.21 um 01:58 schrieb Matthew Brost:
>>>>>> Add entry fpr i915 new parallel submission uAPI plan.
>>>>>>
>>>>>> v2:
>>>>>>     (Daniel Vetter):
>>>>>>      - Expand logical order explaination
>>>>>>      - Add dummy header
>>>>>>      - Only allow N BBs in execbuf IOCTL
>>>>>>      - Configure parallel submission per slot not per gem context
>>>>>>
>>>>>> Cc: Tvrtko Ursulin <tvrtko.ursulin at intel.com>
>>>>>> Cc: Tony Ye <tony.ye at intel.com>
>>>>>> CC: Carl Zhang <carl.zhang at intel.com>
>>>>>> Cc: Daniel Vetter <daniel.vetter at intel.com>
>>>>>> Cc: Jason Ekstrand <jason at jlekstrand.net>
>>>>>> Signed-off-by: Matthew Brost <matthew.brost at intel.com>
>>>>>> ---
>>>>>>     Documentation/gpu/rfc/i915_parallel_execbuf.h | 144 ++++++++++++++++++
>>>>>>     Documentation/gpu/rfc/i915_scheduler.rst      |  53 ++++++-
>>>>>>     2 files changed, 196 insertions(+), 1 deletion(-)
>>>>>>     create mode 100644 Documentation/gpu/rfc/i915_parallel_execbuf.h
>>>>>>
>>>>>> diff --git a/Documentation/gpu/rfc/i915_parallel_execbuf.h b/Documentation/gpu/rfc/i915_parallel_execbuf.h
>>>>>> new file mode 100644
>>>>>> index 000000000000..8c64b983ccad
>>>>>> --- /dev/null
>>>>>> +++ b/Documentation/gpu/rfc/i915_parallel_execbuf.h
>>>>>> @@ -0,0 +1,144 @@
>>>>>> +#define I915_CONTEXT_ENGINES_EXT_PARALLEL_SUBMIT 2 /* see i915_context_engines_parallel_submit */
>>>>>> +
>>>>>> +/*
>>>>>> + * i915_context_engines_parallel_submit:
>>>>>> + *
>>>>>> + * Setup a slot to allow multiple BBs to be submitted in a single execbuf IOCTL.
>>>>>> + * Those BBs will then be scheduled to run on the GPU in parallel. Multiple
>>>>>> + * hardware contexts are created internally in the i915 run these BBs. Once a
>>>>>> + * slot is configured for N BBs only N BBs can be submitted in each execbuf
>>>>>> + * IOCTL and this is implict behavior (e.g. the user doesn't tell the execbuf
>>>>>> + * IOCTL there are N BBs, the execbuf IOCTL know how many BBs there are based on
>>>>>> + * the slots configuration).
>>>>>> + *
>>>>>> + * Their are two currently defined ways to control the placement of the
>>>>>> + * hardware contexts on physical engines: default behavior (no flags) and
>>>>>> + * I915_PARALLEL_IMPLICT_BONDS (a flag). More flags may be added the in the
>>>>>> + * future as new hardware / use cases arise. Details of how to use this
>>>>>> + * interface below above the flags.
>>>>>> + *
>>>>>> + * Returns -EINVAL if hardware context placement configuration invalid or if the
>>>>>> + * placement configuration isn't supported on the platform / submission
>>>>>> + * interface.
>>>>>> + * Returns -ENODEV if extension isn't supported on the platform / submission
>>>>>> + * inteface.
>>>>>> + */
>>>>>> +struct i915_context_engines_parallel_submit {
>>>>>> +       struct i915_user_extension base;
>>>>>> +
>>>>>> +       __u16 engine_index;     /* slot for parallel engine */
>>>>>> +       __u16 width;            /* number of contexts per parallel engine */
>>>>>> +       __u16 num_siblings;     /* number of siblings per context */
>>>>>> +       __u16 mbz16;
>>>>>> +/*
>>>>>> + * Default placement behvavior (currently unsupported):
>>>>>> + *
>>>>>> + * Rather than restricting parallel submission to a single class with a
>>>>>> + * logically contiguous placement (I915_PARALLEL_IMPLICT_BONDS), add a mode that
>>>>>> + * enables parallel submission across multiple engine classes. In this case each
>>>>>> + * context's logical engine mask indicates where that context can placed. It is
>>>>>> + * implied in this mode that all contexts have mutual exclusive placement (e.g.
>>>>>> + * if one context is running CS0 no other contexts can run on CS0).
>>>>>> + *
>>>>>> + * Example 1 pseudo code:
>>>>>> + * CSX[Y] = engine class X, logical instance Y
>>>>>> + * INVALID = I915_ENGINE_CLASS_INVALID, I915_ENGINE_CLASS_INVALID_NONE
>>>>>> + * set_engines(INVALID)
>>>>>> + * set_parallel(engine_index=0, width=2, num_siblings=2,
>>>>>> + *             engines=CS0[0],CS0[1],CS1[0],CS1[1])
>>>>>> + *
>>>>>> + * Results in the following valid placements:
>>>>>> + * CS0[0], CS1[0]
>>>>>> + * CS0[0], CS1[1]
>>>>>> + * CS0[1], CS1[0]
>>>>>> + * CS0[1], CS1[1]
>>>>>> + *
>>>>>> + * This can also be though of as 2 virtual engines:
>>>>>> + * VE[0] = CS0[0], CS0[1]
>>>>>> + * VE[1] = CS1[0], CS1[1]
>>>>>> + *
>>>>>> + * Example 2 pseudo code:
>>>>>> + * CS[X] = generic engine of same class, logical instance X
>>>>>> + * INVALID = I915_ENGINE_CLASS_INVALID, I915_ENGINE_CLASS_INVALID_NONE
>>>>>> + * set_engines(INVALID)
>>>>>> + * set_parallel(engine_index=0, width=2, num_siblings=3,
>>>>>> + *             engines=CS[0],CS[1],CS[2],CS[0],CS[1],CS[2])
>>>>>> + *
>>>>>> + * Results in the following valid placements:
>>>>>> + * CS[0], CS[1]
>>>>>> + * CS[0], CS[2]
>>>>>> + * CS[1], CS[0]
>>>>>> + * CS[1], CS[2]
>>>>>> + * CS[2], CS[0]
>>>>>> + * CS[2], CS[1]
>>>>>> + *
>>>>>> + *
>>>>>> + * This can also be though of as 2 virtual engines:
>>>>>> + * VE[0] = CS[0], CS[1], CS[2]
>>>>>> + * VE[1] = CS[0], CS[1], CS[2]
>>>>>> +
>>>>>> + * This enables a use case where all engines are created equally, we don't care
>>>>>> + * where they are scheduled, we just want a certain number of resources, for
>>>>>> + * those resources to be scheduled in parallel, and possibly across multiple
>>>>>> + * engine classes.
>>>>>> + */
>>>>>> +
>>>>>> +/*
>>>>>> + * I915_PARALLEL_IMPLICT_BONDS - Create implict bonds between each context.
>>>>>> + * Each context must have the same number sibling and bonds are implictly create
>>>>>> + * of the siblings.
>>>>>> + *
>>>>>> + * All of the below examples are in logical space.
>>>>>> + *
>>>>>> + * Example 1 pseudo code:
>>>>>> + * CS[X] = generic engine of same class, logical instance X
>>>>>> + * INVALID = I915_ENGINE_CLASS_INVALID, I915_ENGINE_CLASS_INVALID_NONE
>>>>>> + * set_engines(INVALID)
>>>>>> + * set_parallel(engine_index=0, width=2, num_siblings=1,
>>>>>> + *             engines=CS[0],CS[1], flags=I915_PARALLEL_IMPLICT_BONDS)
>>>>>> + *
>>>>>> + * Results in the following valid placements:
>>>>>> + * CS[0], CS[1]
>>>>>> + *
>>>>>> + * Example 2 pseudo code:
>>>>>> + * CS[X] = generic engine of same class, logical instance X
>>>>>> + * INVALID = I915_ENGINE_CLASS_INVALID, I915_ENGINE_CLASS_INVALID_NONE
>>>>>> + * set_engines(INVALID)
>>>>>> + * set_parallel(engine_index=0, width=2, num_siblings=2,
>>>>>> + *             engines=CS[0],CS[2],CS[1],CS[3], flags=I915_PARALLEL_IMPLICT_BONDS)
>>>>>> + *
>>>>>> + * Results in the following valid placements:
>>>>>> + * CS[0], CS[1]
>>>>>> + * CS[2], CS[3]
>>>>>> + *
>>>>>> + * This can also be though of as 2 virtual engines:
>>>>>> + * VE[0] = CS[0], CS[2]
>>>>>> + * VE[1] = CS[1], CS[3]
>>>>>> + *
>>>>>> + * This enables a use case where all engines are not equal and certain placement
>>>>>> + * rules are required (i.e. split-frame requires all contexts to be placed in a
>>>>>> + * logically contiguous order on the VCS engines on gen11+ platforms). This use
>>>>>> + * case (logically contiguous placement, within a single engine class) is
>>>>>> + * supported when using GuC submission. Execlist mode could support all possible
>>>>>> + * bonding configurations but currently doesn't support this extension.
>>>>>> + */
>>>>>> +#define I915_PARALLEL_IMPLICT_BONDS                    (1<<0)
>>>>>> +/*
>>>>>> + * Do not allow BBs to be preempted mid BB rather insert coordinated preemption
>>>>>> + * points on all hardware contexts between each set of BBs. An example use case
>>>>>> + * of this feature is split-frame on gen11+ hardware. When using this feature a
>>>>>> + * BB must be submitted on each hardware context in the parallel gem context.
>>>>>> + * The execbuf2 IOCTL enforces the user adheres to policy.
>>>>>> + */
>>>>>> +#define I915_PARALLEL_NO_PREEMPT_MID_BATCH             (1<<1)
>>>>>> +#define __I915_PARALLEL_UNKNOWN_FLAGS  (-(I915_PARALLEL_NO_PREEMPT_MID_BATCH << 1))
>>>>>> +       __u64 flags;            /* all undefined flags must be zero */
>>>>>> +       __u64 mbz64[3];         /* reserved for future use; must be zero */
>>>>>> +
>>>>>> +       /*
>>>>>> +        * width (i) * num_siblings (j) in length
>>>>>> +        * index = j + i * num_siblings
>>>>>> +        */
>>>>>> +       struct i915_engine_class_instance engines[0];
>>>>>> +} __attribute__ ((packed));
>>>>>> +
>>>>>> diff --git a/Documentation/gpu/rfc/i915_scheduler.rst b/Documentation/gpu/rfc/i915_scheduler.rst
>>>>>> index 7faa46cde088..64c539486ee4 100644
>>>>>> --- a/Documentation/gpu/rfc/i915_scheduler.rst
>>>>>> +++ b/Documentation/gpu/rfc/i915_scheduler.rst
>>>>>> @@ -82,4 +82,55 @@ https://nam11.safelinks.protection.outlook.com/?url=https%3A%2F%2Fspec.oneapi.com%2Flevel-zero%2Flatest%2Fcore%2Fapi.html%23ze-command-queue-priorit&data=04%7C01%7Cchristian.koenig%40amd.com%7C49a7557f4e494090755608d91ae758a6%7C3dd8961fe4884e608e11a82d994e183d%7C0%7C0%7C637570403202969375%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&sdata=dn3PVdxYQpkpWIru5eAXHgbfuLDkppAA5daV5sHQF7s%3D&reserved=0
>>>>>>     New parallel submission uAPI
>>>>>>     ============================
>>>>>> -Details to come in a following patch.
>>>>>> +The existing bonding uAPI is completely broken with GuC submission because
>>>>>> +whether a submission is a single context submit or parallel submit isn't known
>>>>>> +until execbuf time activated via the I915_SUBMIT_FENCE. To submit multiple
>>>>>> +contexts in parallel with the GuC the context must be explictly registered with
>>>>>> +N contexts and all N contexts must be submitted in a single command to the GuC.
>>>>>> +These interfaces doesn't support dynamically changing between N contexts as the
>>>>>> +bonding uAPI does. Hence the need for a new parallel submission interface. Also
>>>>>> +the legacy bonding uAPI is quite confusing and not intuitive at all.
>>>>>> +
>>>>>> +The new parallel submission uAPI consists of 3 parts:
>>>>>> +
>>>>>> +* Export engines logical mapping
>>>>>> +* A 'set_parallel' extension to configure contexts for parallel
>>>>>> +  submission
>>>>>> +* Extend execbuf2 IOCTL to support submitting N BBs in a single IOCTL
>>>>>> +
>>>>>> +Export engines logical mapping
>>>>>> +------------------------------
>>>>>> +Certain use cases require BBs to be placed on engine instances in logical order
>>>>>> +(e.g. split-frame on gen11+). The logical mapping of engine instances can change
>>>>>> +based on fusing. Rather than making UMDs be aware of fusing, simply expose the
>>>>>> +logical mapping with the existing query engine info IOCTL. Also the GuC
>>>>>> +submission interface currently only supports submitting multiple contexts to
>>>>>> +engines in logical order which is a new requirement compared to execlists.
>>>>>> +Lastly, all current platforms have at most 2 instances and the logical order is
>>>>>> +the same a uABI order. This will change on platforms with more than 2 instances.
>>>>>> +
>>>>>> +A single bit will be added to drm_i915_engine_info.flags indicating that the
>>>>>> +logical instance has been returned and a new field,
>>>>>> +drm_i915_engine_info.logical_instance, returns the logical instance.
>>>>>> +
>>>>>> +A 'set_parallel' extension to configure contexts for parallel submission
>>>>>> +------------------------------------------------------------------------
>>>>>> +The 'set_parallel' extension configures a slot for parallel submission of N BBs.
>>>>>> +It is setup step that should be called before using any of the contexts. See
>>>>>> +I915_CONTEXT_ENGINES_EXT_LOAD_BALANCE or I915_CONTEXT_ENGINES_EXT_BOND for
>>>>>> +similar existing examples. Once a slot is configured for parallel submission the
>>>>>> +execbuf2 IOCTL can be called submiting N BBs in a single IOCTL. Initially only
>>>>>> +support GuC submission. Execlist support can be added later if needed.
>>>>>> +
>>>>>> +Add I915_CONTEXT_ENGINES_EXT_PARALLEL_SUBMIT and
>>>>>> +i915_context_engines_parallel_submit to the uAPI to implement this extension.
>>>>>> +
>>>>>> +Extend execbuf2 IOCTL to support submitting N BBs in a single IOCTL
>>>>>> +-------------------------------------------------------------------
>>>>>> +Contexts that have been configured with the 'set_parallel' extension are allowed
>>>>>> +to submit N BBs in a single execbuf2 IOCTL. The BBs are either the last N
>>>>>> +objects in the drm_i915_gem_exec_object2 list or the first N if
>>>>>> +I915_EXEC_BATCH_FIRST is set. The number of BBs is implict based on the slot
>>>>>> +submitted and how it has been configured by 'set_parallel' or other extensions.
>>>>>> +No uAPI changes in the execbuf IOCTL but worth mentioning the new behavior of
>>>>>> +the IOCTL.
>> _______________________________________________
>> Intel-gfx mailing list
>> Intel-gfx at lists.freedesktop.org
>> https://lists.freedesktop.org/mailman/listinfo/intel-gfx