AQM_TIME_1US
value /= AQM_TIME_1US;
codel_sysctl.target = value * AQM_TIME_1US ;
ccfg->target = ep->par[0] * AQM_TIME_1US;
ccfg->interval = ep->par[1] * AQM_TIME_1US;
ep->par[0] = ccfg->target / AQM_TIME_1US;
ep->par[1] = ccfg->interval / AQM_TIME_1US;
struct dn_aqm_codel_parms codel_sysctl = {5000 * AQM_TIME_1US,
100000 * AQM_TIME_1US, 0};
value /= AQM_TIME_1US;
codel_sysctl.interval = value * AQM_TIME_1US ;
value = value / AQM_TIME_1US;
value = value * AQM_TIME_1US;
pcfg->qdelay_ref = pie_sysctl.qdelay_ref * AQM_TIME_1US;
pcfg->tupdate = pie_sysctl.tupdate * AQM_TIME_1US;
pcfg->max_burst = pie_sysctl.max_burst * AQM_TIME_1US;
ep->par[0] = pcfg->qdelay_ref / AQM_TIME_1US;
ep->par[1] = pcfg->tupdate / AQM_TIME_1US;
ep->par[2] = pcfg->max_burst / AQM_TIME_1US;
fq_codel_sysctl.ccfg.interval = value * AQM_TIME_1US ;
value /= AQM_TIME_1US;
fq_codel_sysctl.ccfg.target = value * AQM_TIME_1US ;
fqc_cfg->ccfg.target = ep->par[0] * AQM_TIME_1US;
fqc_cfg->ccfg.interval = ep->par[1] * AQM_TIME_1US;
ep->par[0] = fqc_cfg->ccfg.target / AQM_TIME_1US;
ep->par[1] = fqc_cfg->ccfg.interval / AQM_TIME_1US;
fq_codel_sysctl = {{5000 * AQM_TIME_1US, 100000 * AQM_TIME_1US,
value /= AQM_TIME_1US;
fq_pie_sysctl = {{15000 * AQM_TIME_1US, 15000 * AQM_TIME_1US,
150000 * AQM_TIME_1US, PIE_SCALE * 0.1, PIE_SCALE * 0.125,
value = value / AQM_TIME_1US;
value = value * AQM_TIME_1US;