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Linux/Documentation/driver-api/cxl/access-coordinates.rst

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Diff markup

Differences between /Documentation/driver-api/cxl/access-coordinates.rst (Version linux-6.12-rc7) and /Documentation/driver-api/cxl/access-coordinates.rst (Version linux-4.13.16)


  1 .. SPDX-License-Identifier: GPL-2.0               
  2 .. include:: <isonum.txt>                         
  3                                                   
  4 ==================================                
  5 CXL Access Coordinates Computation                
  6 ==================================                
  7                                                   
  8 Shared Upstream Link Calculation                  
  9 ================================                  
 10 For certain CXL region construction with endpo    
 11 Root Ports (RP), there is the possibility of t    
 12 the endpoints behind a switch being more than     
 13 A similar situation can occur within the host,    
 14 The CXL driver performs an additional pass aft    
 15 arrived for a region in order to recalculate t    
 16 upstream link being a limiting factor in mind.    
 17                                                   
 18 The algorithm assumes the configuration is a s    
 19 maximizes performance. When asymmetric topolog    
 20 is aborted. An asymmetric topology is detected    
 21 number of RPs detected as a grandparent is not    
 22 iterated in the same iteration loop. The assum    
 23 asymmetry in properties does not happen and al    
 24                                                   
 25 There can be multiple switches under an RP. Th    
 26 a CXL Host Bridge (HB). There can be multiple     
 27 Window Structure (CFMWS).                         
 28                                                   
 29 An example hierarchy:                             
 30                                                   
 31 >                CFMWS 0                          
 32 >                  |                              
 33 >         _________|_________                     
 34 >        |                   |                    
 35 >    ACPI0017-0          ACPI0017-1               
 36 > GP0/HB0/ACPI0016-0   GP1/HB1/ACPI0016-1         
 37 >    |          |        |           |            
 38 >   RP0        RP1      RP2         RP3           
 39 >    |          |        |           |            
 40 >  SW 0       SW 1     SW 2        SW 3           
 41 >  |   |      |   |    |   |       |   |          
 42 > EP0 EP1    EP2 EP3  EP4  EP5    EP6 EP7         
 43                                                   
 44 Computation for the example hierarchy:            
 45                                                   
 46 Min (GP0 to CPU BW,                               
 47      Min(SW 0 Upstream Link to RP0 BW,            
 48          Min(SW0SSLBIS for SW0DSP0 (EP0), EP0     
 49          Min(SW0SSLBIS for SW0DSP1 (EP1), EP1     
 50      Min(SW 1 Upstream Link to RP1 BW,            
 51          Min(SW1SSLBIS for SW1DSP0 (EP2), EP2     
 52          Min(SW1SSLBIS for SW1DSP1 (EP3), EP3     
 53 Min (GP1 to CPU BW,                               
 54      Min(SW 2 Upstream Link to RP2 BW,            
 55          Min(SW2SSLBIS for SW2DSP0 (EP4), EP4     
 56          Min(SW2SSLBIS for SW2DSP1 (EP5), EP5     
 57      Min(SW 3 Upstream Link to RP3 BW,            
 58          Min(SW3SSLBIS for SW3DSP0 (EP6), EP6     
 59          Min(SW3SSLBIS for SW3DSP1 (EP7), EP7     
 60                                                   
 61 The calculation starts at cxl_region_shared_up    
 62 is created to collect all the endpoint bandwid    
 63 cxl_endpoint_gather_bandwidth() function. The     
 64 endpoint CDAT and the upstream link bandwidth     
 65 has a CXL switch as a parent, then min() of ca    
 66 bandwidth from the SSLBIS for the switch downs    
 67 with the endpoint is calculated. The final ban    
 68 'struct cxl_perf_ctx' in the xarray indexed by    
 69 endpoint is direct attached to a root port (RP    
 70 RP device. If the endpoint is behind a switch,    
 71 upstream device of the parent switch.             
 72                                                   
 73 At the next stage, the code walks through one     
 74 in the topology. For endpoints directly attach    
 75 If there is another switch upstream, the code     
 76 gathered bandwidth and the upstream link bandw    
 77 upstream, then the SSLBIS of the upstream swit    
 78                                                   
 79 Once the topology walk reaches the RP, whether    
 80 or walking through the switch(es), cxl_rp_gath    
 81 this point all the bandwidths are aggregated p    
 82 also the index for the resulting xarray.          
 83                                                   
 84 The next step is to take the min() of the per     
 85 bandwidth from the Generic Port (GP). The band    
 86 via ACPI tables SRAT/HMAT. The min bandwidth a    
 87 ACPI0017 device to form a new xarray.             
 88                                                   
 89 Finally, the cxl_region_update_bandwidth() is     
 90 bandwidth from all the members of the last xar    
 91 access coordinates residing in the cxl region     
                                                      

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