xref: /linux/Documentation/gpu/amdgpu/driver-core.rst (revision 8e07e0e3964ca4e23ce7b68e2096fe660a888942)
1============================
2 Core Driver Infrastructure
3============================
4
5GPU Hardware Structure
6======================
7
8Each ASIC is a collection of hardware blocks.  We refer to them as
9"IPs" (Intellectual Property blocks).  Each IP encapsulates certain
10functionality. IPs are versioned and can also be mixed and matched.
11E.g., you might have two different ASICs that both have System DMA (SDMA) 5.x IPs.
12The driver is arranged by IPs.  There are driver components to handle
13the initialization and operation of each IP.  There are also a bunch
14of smaller IPs that don't really need much if any driver interaction.
15Those end up getting lumped into the common stuff in the soc files.
16The soc files (e.g., vi.c, soc15.c nv.c) contain code for aspects of
17the SoC itself rather than specific IPs.  E.g., things like GPU resets
18and register access functions are SoC dependent.
19
20An APU contains more than just CPU and GPU, it also contains all of
21the platform stuff (audio, usb, gpio, etc.).  Also, a lot of
22components are shared between the CPU, platform, and the GPU (e.g.,
23SMU, PSP, etc.).  Specific components (CPU, GPU, etc.) usually have
24their interface to interact with those common components.  For things
25like S0i3 there is a ton of coordination required across all the
26components, but that is probably a bit beyond the scope of this
27section.
28
29With respect to the GPU, we have the following major IPs:
30
31GMC (Graphics Memory Controller)
32    This was a dedicated IP on older pre-vega chips, but has since
33    become somewhat decentralized on vega and newer chips.  They now
34    have dedicated memory hubs for specific IPs or groups of IPs.  We
35    still treat it as a single component in the driver however since
36    the programming model is still pretty similar.  This is how the
37    different IPs on the GPU get the memory (VRAM or system memory).
38    It also provides the support for per process GPU virtual address
39    spaces.
40
41IH (Interrupt Handler)
42    This is the interrupt controller on the GPU.  All of the IPs feed
43    their interrupts into this IP and it aggregates them into a set of
44    ring buffers that the driver can parse to handle interrupts from
45    different IPs.
46
47PSP (Platform Security Processor)
48    This handles security policy for the SoC and executes trusted
49    applications, and validates and loads firmwares for other blocks.
50
51SMU (System Management Unit)
52    This is the power management microcontroller.  It manages the entire
53    SoC.  The driver interacts with it to control power management
54    features like clocks, voltages, power rails, etc.
55
56DCN (Display Controller Next)
57    This is the display controller.  It handles the display hardware.
58    It is described in more details in :ref:`Display Core <amdgpu-display-core>`.
59
60SDMA (System DMA)
61    This is a multi-purpose DMA engine.  The kernel driver uses it for
62    various things including paging and GPU page table updates.  It's also
63    exposed to userspace for use by user mode drivers (OpenGL, Vulkan,
64    etc.)
65
66GC (Graphics and Compute)
67    This is the graphics and compute engine, i.e., the block that
68    encompasses the 3D pipeline and and shader blocks.  This is by far the
69    largest block on the GPU.  The 3D pipeline has tons of sub-blocks.  In
70    addition to that, it also contains the CP microcontrollers (ME, PFP,
71    CE, MEC) and the RLC microcontroller.  It's exposed to userspace for
72    user mode drivers (OpenGL, Vulkan, OpenCL, etc.)
73
74VCN (Video Core Next)
75    This is the multi-media engine.  It handles video and image encode and
76    decode.  It's exposed to userspace for user mode drivers (VA-API,
77    OpenMAX, etc.)
78
79Graphics and Compute Microcontrollers
80-------------------------------------
81
82CP (Command Processor)
83    The name for the hardware block that encompasses the front end of the
84    GFX/Compute pipeline.  Consists mainly of a bunch of microcontrollers
85    (PFP, ME, CE, MEC).  The firmware that runs on these microcontrollers
86    provides the driver interface to interact with the GFX/Compute engine.
87
88    MEC (MicroEngine Compute)
89        This is the microcontroller that controls the compute queues on the
90        GFX/compute engine.
91
92    MES (MicroEngine Scheduler)
93        This is a new engine for managing queues.  This is currently unused.
94
95RLC (RunList Controller)
96    This is another microcontroller in the GFX/Compute engine.  It handles
97    power management related functionality within the GFX/Compute engine.
98    The name is a vestige of old hardware where it was originally added
99    and doesn't really have much relation to what the engine does now.
100
101Driver Structure
102================
103
104In general, the driver has a list of all of the IPs on a particular
105SoC and for things like init/fini/suspend/resume, more or less just
106walks the list and handles each IP.
107
108Some useful constructs:
109
110KIQ (Kernel Interface Queue)
111    This is a control queue used by the kernel driver to manage other gfx
112    and compute queues on the GFX/compute engine.  You can use it to
113    map/unmap additional queues, etc.
114
115IB (Indirect Buffer)
116    A command buffer for a particular engine.  Rather than writing
117    commands directly to the queue, you can write the commands into a
118    piece of memory and then put a pointer to the memory into the queue.
119    The hardware will then follow the pointer and execute the commands in
120    the memory, then returning to the rest of the commands in the ring.
121
122.. _amdgpu_memory_domains:
123
124Memory Domains
125==============
126
127.. kernel-doc:: include/uapi/drm/amdgpu_drm.h
128   :doc: memory domains
129
130Buffer Objects
131==============
132
133.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_object.c
134   :doc: amdgpu_object
135
136.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_object.c
137   :internal:
138
139PRIME Buffer Sharing
140====================
141
142.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_dma_buf.c
143   :doc: PRIME Buffer Sharing
144
145.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_dma_buf.c
146   :internal:
147
148MMU Notifier
149============
150
151.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_hmm.c
152   :doc: MMU Notifier
153
154.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_hmm.c
155   :internal:
156
157AMDGPU Virtual Memory
158=====================
159
160.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_vm.c
161   :doc: GPUVM
162
163.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_vm.c
164   :internal:
165
166Interrupt Handling
167==================
168
169.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_irq.c
170   :doc: Interrupt Handling
171
172.. kernel-doc:: drivers/gpu/drm/amd/amdgpu/amdgpu_irq.c
173   :internal:
174
175IP Blocks
176=========
177
178.. kernel-doc:: drivers/gpu/drm/amd/include/amd_shared.h
179   :doc: IP Blocks
180
181.. kernel-doc:: drivers/gpu/drm/amd/include/amd_shared.h
182   :identifiers: amd_ip_block_type amd_ip_funcs
183