PROJECT #16984 RESEARCH FOR CANCER
FOLDING PERFORMANCE PROFILE

PROJECT SUMMARY

These simulations are designed to test our understanding the folding mechanism of alpha-helical hairpins. We are trying to study how disulfide cross-linkers and sequence variants affect the folding thermodynamics and kinetics of these proteins, to learn how we might better use molecular simulation methods to design effective protein binder scaffolds, for use as "affibody" cancer therapeutics, for example.

PROJECT INFO

Manager(s): Prof. Vincent Voelz

Institution: Temple University

PROJECT WORK UNIT SUMMARY

Atoms: 23,400

Core: GRO_A8

Status: Public

PROJECT FOLDING PPD AVERAGES BY GPU

PPDDB data as of Tuesday, 28 September 2021 06:02:47

Rank
Project
Model Name
Folding@Home Identifier
Make
Brand
GPU
Model
PPD
Average
Points WU
Average
WUs Day
Average
WU Time
Average

PROJECT FOLDING PPD AVERAGES BY CPU BETA

PPDDB data as of Tuesday, 28 September 2021 06:02:47

Rank
Project
CPU Model Logical
Processors (LP)
PPD-PLP
AVG PPD per 1 LP
ALL LP-PPD
(Estimated)
Make
1 RYZEN 9 3950X 16-CORE 32 34,461 1,102,752 AMD
2 RYZEN 7 5800X 8-CORE 16 39,774 636,384 AMD
3 RYZEN 9 5950X 16-CORE 32 11,985 383,520 AMD
4 RYZEN 7 3800X 8-CORE 16 23,072 369,152 AMD
5 XEON CPU E5-2680 V3 @ 2.50GHZ 24 12,811 307,464 Intel
6 CORE I9-10900X CPU @ 3.70GHZ 20 14,561 291,220 Intel
7 RYZEN 9 3900X 12-CORE 24 11,759 282,216 AMD
8 CORE I7-8700 CPU @ 3.20GHZ 12 19,789 237,468 Intel
9 RYZEN 7 2700X EIGHT-CORE 16 13,143 210,288 AMD
10 CORE I7-8700K CPU @ 3.70GHZ 12 15,375 184,500 Intel
11 CORE I7-9700K CPU @ 3.60GHZ 8 21,663 173,304 Intel
12 CORE I5-10400 CPU @ 2.90GHZ 12 14,035 168,420 Intel
13 RYZEN THREADRIPPER 3960X 24-CORE 48 3,401 163,248 AMD
14 CORE I5-10400F CPU @ 2.90GHZ 12 12,620 151,440 Intel
15 CORE I7-6700K CPU @ 4.00GHZ 8 13,847 110,776 Intel
16 RYZEN 5 3600 6-CORE 12 7,395 88,740 AMD
17 CORE I7-8705G CPU @ 3.10GHZ 8 10,081 80,648 Intel
18 RYZEN 5 2600 SIX-CORE 12 4,977 59,724 AMD
19 CORE I7-4770HQ CPU @ 2.20GHZ 8 6,887 55,096 Intel