These results suggested that running the GPU at or near the maximum draw uses a disproportionately large increase in power consumption with a small increase in yield. Empirical testing has shown that reducing the Power Limit to 90% results in only a slight (2-5%) decrease in yield for mid-range (GTX 1060, GTX 1070) GPUs.
FAHBench reports results in ns/day, a measure of the progression of the Folding simulation compared to real-time. Folders, however, are rewarded in Points which FAHBench cannot easily report in due to the Quick Return Bonus (QRB) which applies an inverse square-root function to reward Work Units (WUs) completed in advance of the Deadline set for a WU.
In theory these cards should be most efficient at their lowest Power Limit but efficiency for Folding should be measured in Points-per-Day per Watt (PPD/W) not ns/day/W.
On one hand the GPUs get less efficient as their Power Limit approaches the maximum but, on the other hand, as their Power Limit is increased they perform faster and get more value from the QRB.
The GPUs in use are manufactured by an Add-In Board (AIB) partner and are thus factory overclocked and have Maximum Power Limits that exceed those found on NVidia reference designs (“Founder’s Editions” or FE). The AIB Maximums are often wildly optimistic and as we are focusing our investigation on efficiency rather than yield the Default Power Limit from the FE models will be used as the Maximum Power Limit for these tests.
It is proposed to find the maximal efficiency of GPUs by running the GPUs at fixed percentages of the Default FE Power Limit from the maximum towards the minimum values and recording the Yields for a period of time sufficient to provide a reasonable average for differing WUs.
Yield will be recorded from the GPU using a script on the local host that queries the Folding Client once a minute and forwards the PPD to a remote collection server. Power Consumption will be recorded using a script on the local host that queries the Graphics Driver once a minute and forwards the Wattage to the remote collection server.
WU yields will also be recorded to compare of the Yields of WUs at the varying Power Limits.
Zabbix will be used for the remote collection server with Zabbix Agents installed on the Folding hosts collecting Power Consumption. A script will be used on the Folding hosts to collect Yields from the Folding Client as using the Zabbix Agent during initial testing resulted in occasional time-outs and loss of data.
HFM.net will be used to record WU statistics.
It is proposed to use one week as the time interval to collect data at a specific Power Limit percentage and to measure Yields at 5% intervals from 100% of the Maximum Power Limit down to 60-50% where the minimum Power Limit settings are found.