; SPDX-License-Identifier: BSD-3-Clause ; Copyright(c) 2010-2019 Intel Corporation. ; This file enables the following hierarchical scheduler configuration for each ; 10GbE output port: ; * Single subport (subport 0): ; - Subport rate set to 100% of port rate ; - Each of the 13 traffic classes has rate set to 100% of port rate ; * 4K pipes per subport 0 (pipes 0 .. 4095) with identical configuration: ; - Pipe rate set to 1/4K of port rate ; - Each of the 13 traffic classes has rate set to 100% of pipe rate ; - Within lowest priority traffic class (best-effort), the byte-level ; WRR weights for the 4 queues of best effort traffic class are set ; to 1:1:1:1 ; ; For more details, please refer to chapter "Quality of Service (QoS) Framework" ; of Data Plane Development Kit (DPDK) Programmer's Guide. ; Port configuration [port] frame overhead = 24 number of subports per port = 1 ; Subport configuration [subport 0] number of pipes per subport = 4096 queue sizes = 64 64 64 64 64 64 64 64 64 64 64 64 64 subport 0-8 = 0 ; These subports are configured with subport profile 0 [subport profile 0] tb rate = 1250000000 ; Bytes per second tb size = 1000000 ; Bytes tc 0 rate = 1250000000 ; Bytes per second tc 1 rate = 1250000000 ; Bytes per second tc 2 rate = 1250000000 ; Bytes per second tc 3 rate = 1250000000 ; Bytes per second tc 4 rate = 1250000000 ; Bytes per second tc 5 rate = 1250000000 ; Bytes per second tc 6 rate = 1250000000 ; Bytes per second tc 7 rate = 1250000000 ; Bytes per second tc 8 rate = 1250000000 ; Bytes per second tc 9 rate = 1250000000 ; Bytes per second tc 10 rate = 1250000000 ; Bytes per second tc 11 rate = 1250000000 ; Bytes per second tc 12 rate = 1250000000 ; Bytes per second tc period = 10 ; Milliseconds pipe 0-4095 = 0 ; These pipes are configured with pipe profile 0 ; Pipe configuration [pipe profile 0] tb rate = 305175 ; Bytes per second tb size = 1000000 ; Bytes tc 0 rate = 305175 ; Bytes per second tc 1 rate = 305175 ; Bytes per second tc 2 rate = 305175 ; Bytes per second tc 3 rate = 305175 ; Bytes per second tc 4 rate = 305175 ; Bytes per second tc 5 rate = 305175 ; Bytes per second tc 6 rate = 305175 ; Bytes per second tc 7 rate = 305175 ; Bytes per second tc 8 rate = 305175 ; Bytes per second tc 9 rate = 305175 ; Bytes per second tc 10 rate = 305175 ; Bytes per second tc 11 rate = 305175 ; Bytes per second tc 12 rate = 305175 ; Bytes per second tc period = 40 ; Milliseconds tc 12 oversubscription weight = 1 tc 12 wrr weights = 1 1 1 1 ; RED params per traffic class and color (Green / Yellow / Red) ;[red] ;tc 0 wred min = 48 40 32 ;tc 0 wred max = 64 64 64 ;tc 0 wred inv prob = 10 10 10 ;tc 0 wred weight = 9 9 9 ;tc 1 wred min = 48 40 32 ;tc 1 wred max = 64 64 64 ;tc 1 wred inv prob = 10 10 10 ;tc 1 wred weight = 9 9 9 ;tc 2 wred min = 48 40 32 ;tc 2 wred max = 64 64 64 ;tc 2 wred inv prob = 10 10 10 ;tc 2 wred weight = 9 9 9 ;tc 3 wred min = 48 40 32 ;tc 3 wred max = 64 64 64 ;tc 3 wred inv prob = 10 10 10 ;tc 3 wred weight = 9 9 9 ;tc 4 wred min = 48 40 32 ;tc 4 wred max = 64 64 64 ;tc 4 wred inv prob = 10 10 10 ;tc 4 wred weight = 9 9 9 ;tc 5 wred min = 48 40 32 ;tc 5 wred max = 64 64 64 ;tc 5 wred inv prob = 10 10 10 ;tc 5 wred weight = 9 9 9 ;tc 6 wred min = 48 40 32 ;tc 6 wred max = 64 64 64 ;tc 6 wred inv prob = 10 10 10 ;tc 6 wred weight = 9 9 9 ;tc 7 wred min = 48 40 32 ;tc 7 wred max = 64 64 64 ;tc 7 wred inv prob = 10 10 10 ;tc 7 wred weight = 9 9 9 ;tc 8 wred min = 48 40 32 ;tc 8 wred max = 64 64 64 ;tc 8 wred inv prob = 10 10 10 ;tc 8 wred weight = 9 9 9 ;tc 9 wred min = 48 40 32 ;tc 9 wred max = 64 64 64 ;tc 9 wred inv prob = 10 10 10 ;tc 9 wred weight = 9 9 9 ;tc 10 wred min = 48 40 32 ;tc 10 wred max = 64 64 64 ;tc 10 wred inv prob = 10 10 10 ;tc 10 wred weight = 9 9 9 ;tc 11 wred min = 48 40 32 ;tc 11 wred max = 64 64 64 ;tc 11 wred inv prob = 10 10 10 ;tc 11 wred weight = 9 9 9 ;tc 12 wred min = 48 40 32 ;tc 12 wred max = 64 64 64 ;tc 12 wred inv prob = 10 10 10 ;tc 12 wred weight = 9 9 9 [pie] tc 0 qdelay ref = 15 tc 0 max burst = 150 tc 0 update interval = 15 tc 0 tailq th = 64 tc 1 qdelay ref = 15 tc 1 max burst = 150 tc 1 update interval = 15 tc 1 tailq th = 64 tc 2 qdelay ref = 15 tc 2 max burst = 150 tc 2 update interval = 15 tc 2 tailq th = 64 tc 3 qdelay ref = 15 tc 3 max burst = 150 tc 3 update interval = 15 tc 3 tailq th = 64 tc 4 qdelay ref = 15 tc 4 max burst = 150 tc 4 update interval = 15 tc 4 tailq th = 64 tc 5 qdelay ref = 15 tc 5 max burst = 150 tc 5 update interval = 15 tc 5 tailq th = 64 tc 6 qdelay ref = 15 tc 6 max burst = 150 tc 6 update interval = 15 tc 6 tailq th = 64 tc 7 qdelay ref = 15 tc 7 max burst = 150 tc 7 update interval = 15 tc 7 tailq th = 64 tc 8 qdelay ref = 15 tc 8 max burst = 150 tc 8 update interval = 15 tc 8 tailq th = 64 tc 9 qdelay ref = 15 tc 9 max burst = 150 tc 9 update interval = 15 tc 9 tailq th = 64 tc 10 qdelay ref = 15 tc 10 max burst = 150 tc 10 update interval = 15 tc 10 tailq th = 64 tc 11 qdelay ref = 15 tc 11 max burst = 150 tc 11 update interval = 15 tc 11 tailq th = 64 tc 12 qdelay ref = 15 tc 12 max burst = 150 tc 12 update interval = 15 tc 12 tailq th = 64