local format = require 'format' local pure = require 'pure' local common = require 'common' local geometry = require 'geometry' local sys = require 'sys' return function(update_freq, battery, point) local TEXT_SPACING = 20 local PLOT_SEC_BREAK = 20 local PLOT_HEIGHT = 56 local read_pkg0_joules = sys.intel_powercap_reader('intel-rapl:0') local read_dram_joules = sys.intel_powercap_reader('intel-rapl:0:2') local _read_battery_power = sys.battery_power_reader(battery) local read_battery_power = function(is_using_ac) if is_using_ac then return 0 else return _read_battery_power() end end local power_label_function = function(plot_max) local fmt = common.y_label_format_string(plot_max, 'W') return function(watts) return string.format(fmt, watts) end end local format_rapl = function(watts) return format.precision_round_to_string(watts, 3)..' W' end local mk_static = function(obj) return pure.partial(common.tagged_scaled_timeseries_draw_static, obj) end local mk_dynamic = function(obj) return pure.partial(common.tagged_scaled_timeseries_draw_dynamic, obj) end local mk_rate_plot = function(label, read, y) local obj = common.make_rate_timeseries( point.x, y, geometry.SECTION_WIDTH, PLOT_HEIGHT, format_rapl, power_label_function, PLOT_SEC_BREAK, label, 0, update_freq, read() ) return common.mk_acc( PLOT_HEIGHT + PLOT_SEC_BREAK, function(_) common.update_rate_timeseries(obj, read()) end, mk_static(obj), mk_dynamic(obj) ) end ----------------------------------------------------------------------------- -- package 0 power plot local mk_pkg0 = pure.partial(mk_rate_plot, 'PKG0', read_pkg0_joules) ----------------------------------------------------------------------------- -- DRAM power plot local mk_dram = pure.partial(mk_rate_plot, 'DRAM', read_dram_joules) ----------------------------------------------------------------------------- -- battery power plot local format_ac = function(watts) if watts == 0 then return "A/C" else return format_rapl(watts) end end local mk_bat = function(y) local obj = common.make_tagged_scaled_timeseries( point.x, y, geometry.SECTION_WIDTH, PLOT_HEIGHT, format_ac, power_label_function, PLOT_SEC_BREAK, 'Battery Draw', 0, update_freq ) return common.mk_acc( PLOT_HEIGHT + PLOT_SEC_BREAK, function(ac) common.tagged_scaled_timeseries_set(obj, read_battery_power(ac)) end, mk_static(obj), mk_dynamic(obj) ) end ----------------------------------------------------------------------------- -- main functions return common.reduce_blocks_( 'POWER', point, geometry.SECTION_WIDTH, { common.mk_block(mk_pkg0, true, 0), common.mk_block(mk_dram, true, TEXT_SPACING), common.mk_block(mk_bat, true, TEXT_SPACING), } ) end