Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matt Roper | 242 | 42.16% | 7 | 31.82% |
Chris Wilson | 157 | 27.35% | 2 | 9.09% |
Stuart Summers | 96 | 16.72% | 8 | 36.36% |
Daniele Ceraolo Spurio | 77 | 13.41% | 4 | 18.18% |
Venkata Sandeep Dhanalakota | 2 | 0.35% | 1 | 4.55% |
Total | 574 | 22 |
/* SPDX-License-Identifier: MIT */ /* * Copyright © 2019 Intel Corporation */ #ifndef __INTEL_SSEU_H__ #define __INTEL_SSEU_H__ #include <linux/types.h> #include <linux/kernel.h> #include "i915_gem.h" struct drm_i915_private; struct intel_gt; struct drm_printer; /* * Maximum number of slices on older platforms. Slices no longer exist * starting on Xe_HP ("gslices," "cslices," etc. are a different concept and * are not expressed through fusing). */ #define GEN_MAX_HSW_SLICES 3 /* * Maximum number of subslices that can exist within a HSW-style slice. This * is only relevant to pre-Xe_HP platforms (Xe_HP and beyond use the * I915_MAX_SS_FUSE_BITS value below). */ #define GEN_MAX_SS_PER_HSW_SLICE 6 /* * Maximum number of 32-bit registers used by hardware to express the * enabled/disabled subslices. */ #define I915_MAX_SS_FUSE_REGS 2 #define I915_MAX_SS_FUSE_BITS (I915_MAX_SS_FUSE_REGS * 32) /* Maximum number of EUs that can exist within a subslice or DSS. */ #define GEN_MAX_EUS_PER_SS 16 #define SSEU_MAX(a, b) ((a) > (b) ? (a) : (b)) /* The maximum number of bits needed to express each subslice/DSS independently */ #define GEN_SS_MASK_SIZE SSEU_MAX(I915_MAX_SS_FUSE_BITS, \ GEN_MAX_HSW_SLICES * GEN_MAX_SS_PER_HSW_SLICE) #define GEN_SSEU_STRIDE(max_entries) DIV_ROUND_UP(max_entries, BITS_PER_BYTE) #define GEN_MAX_SUBSLICE_STRIDE GEN_SSEU_STRIDE(GEN_SS_MASK_SIZE) #define GEN_MAX_EU_STRIDE GEN_SSEU_STRIDE(GEN_MAX_EUS_PER_SS) #define GEN_DSS_PER_GSLICE 4 #define GEN_DSS_PER_CSLICE 8 #define GEN_DSS_PER_MSLICE 8 #define GEN_MAX_GSLICES (I915_MAX_SS_FUSE_BITS / GEN_DSS_PER_GSLICE) #define GEN_MAX_CSLICES (I915_MAX_SS_FUSE_BITS / GEN_DSS_PER_CSLICE) typedef union { u8 hsw[GEN_MAX_HSW_SLICES]; /* Bitmap compatible with linux/bitmap.h; may exceed size of u64 */ unsigned long xehp[BITS_TO_LONGS(I915_MAX_SS_FUSE_BITS)]; } intel_sseu_ss_mask_t; #define XEHP_BITMAP_BITS(mask) ((int)BITS_PER_TYPE(typeof(mask.xehp))) struct sseu_dev_info { u8 slice_mask; intel_sseu_ss_mask_t subslice_mask; intel_sseu_ss_mask_t geometry_subslice_mask; intel_sseu_ss_mask_t compute_subslice_mask; union { u16 hsw[GEN_MAX_HSW_SLICES][GEN_MAX_SS_PER_HSW_SLICE]; u16 xehp[I915_MAX_SS_FUSE_BITS]; } eu_mask; u16 eu_total; u8 eu_per_subslice; u8 min_eu_in_pool; /* For each slice, which subslice(s) has(have) 7 EUs (bitfield)? */ u8 subslice_7eu[3]; u8 has_slice_pg:1; u8 has_subslice_pg:1; u8 has_eu_pg:1; /* * For Xe_HP and beyond, the hardware no longer has traditional slices * so we just report the entire DSS pool under a fake "slice 0." */ u8 has_xehp_dss:1; /* Topology fields */ u8 max_slices; u8 max_subslices; u8 max_eus_per_subslice; }; /* * Powergating configuration for a particular (context,engine). */ struct intel_sseu { u8 slice_mask; u8 subslice_mask; u8 min_eus_per_subslice; u8 max_eus_per_subslice; }; static inline struct intel_sseu intel_sseu_from_device_info(const struct sseu_dev_info *sseu) { struct intel_sseu value = { .slice_mask = sseu->slice_mask, .subslice_mask = sseu->subslice_mask.hsw[0], .min_eus_per_subslice = sseu->max_eus_per_subslice, .max_eus_per_subslice = sseu->max_eus_per_subslice, }; return value; } static inline bool intel_sseu_has_subslice(const struct sseu_dev_info *sseu, int slice, int subslice) { if (slice >= sseu->max_slices || subslice >= sseu->max_subslices) return false; if (sseu->has_xehp_dss) return test_bit(subslice, sseu->subslice_mask.xehp); else return sseu->subslice_mask.hsw[slice] & BIT(subslice); } /* * Used to obtain the index of the first DSS. Can start searching from the * beginning of a specific dss group (e.g., gslice, cslice, etc.) if * groupsize and groupnum are non-zero. */ static inline unsigned int intel_sseu_find_first_xehp_dss(const struct sseu_dev_info *sseu, int groupsize, int groupnum) { return find_next_bit(sseu->subslice_mask.xehp, XEHP_BITMAP_BITS(sseu->subslice_mask), groupnum * groupsize); } void intel_sseu_set_info(struct sseu_dev_info *sseu, u8 max_slices, u8 max_subslices, u8 max_eus_per_subslice); unsigned int intel_sseu_subslice_total(const struct sseu_dev_info *sseu); unsigned int intel_sseu_get_hsw_subslices(const struct sseu_dev_info *sseu, u8 slice); intel_sseu_ss_mask_t intel_sseu_get_compute_subslices(const struct sseu_dev_info *sseu); void intel_sseu_info_init(struct intel_gt *gt); u32 intel_sseu_make_rpcs(struct intel_gt *gt, const struct intel_sseu *req_sseu); void intel_sseu_dump(const struct sseu_dev_info *sseu, struct drm_printer *p); void intel_sseu_print_topology(struct drm_i915_private *i915, const struct sseu_dev_info *sseu, struct drm_printer *p); u16 intel_slicemask_from_xehp_dssmask(intel_sseu_ss_mask_t dss_mask, int dss_per_slice); int intel_sseu_copy_eumask_to_user(void __user *to, const struct sseu_dev_info *sseu); int intel_sseu_copy_ssmask_to_user(void __user *to, const struct sseu_dev_info *sseu); void intel_sseu_print_ss_info(const char *type, const struct sseu_dev_info *sseu, struct seq_file *m); #endif /* __INTEL_SSEU_H__ */
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