:return:
"""
number_cu = self._get_flavor(d).get("compute")
- # get cpu time fraction for entire emulation
- e_cpu = self.registrar.e_cpu
# calculate cpu time fraction of a single compute unit
- self.single_cu = float(e_cpu) / sum([rm.dc_max_cu for rm in list(self.registrar.resource_models)])
+ self.single_cu = self._compute_single_cu()
# calculate cpu time fraction for container with given flavor
cpu_time_percentage = self.single_cu * number_cu
# calculate input values for CFS scheduler bandwidth limitation
d.name, cpu_period, cpu_time_percentage, cpu_quota))
d.updateCpuLimit(cpu_period=int(cpu_period), cpu_quota=int(cpu_quota))
+ def _compute_single_cu(self):
+ """
+ Calculate percentage of CPU time of a singe CU unit.
+ :return:
+ """
+ # get cpu time fraction for entire emulation
+ e_cpu = self.registrar.e_cpu
+ # calculate
+ return float(e_cpu) / sum([rm.dc_max_cu for rm in list(self.registrar.resource_models)])
+
def _calculate_cpu_cfs_values(self, cpu_time_percentage):
"""
Calculate cpu period and quota for CFS
# calculate amount of memory for a single mu
self.single_mu = float(e_mem) / sum([rm.dc_max_mu for rm in list(self.registrar.resource_models)])
# calculate mem for given flavor
+ mem_limit = self.single_mu * number_mu
mem_limit = self._calculate_mem_limit_value(mem_limit)
# apply to container if changed
if d.mem_limit != mem_limit: