Can one of you lucky recipients of the Udoo Bolt V8 run a benchmark on it and on the x86 Advanced for a comparison? I'm interested in knowing just how much of a performance increase to expect with a V8 over the X86. For Windows, here's the benchmark package I use: https://www.cpuid.com/softwares/cpu-z.html For Linux, Novabench looks like a candidate: https://www.cpuid.com/softwares/cpu-z.html Please indicate the following: Operating system and version? Benchmark program used? RAM: GB? Make? Model? SSD: GB? Make? Model? Other pertinent information? Results? (A screen capture would be nice.) ADVthanksVANCE
Go to Geekbench . com to search Geekbench 4 result (browse > search "Seco C40" as well as "UDOO x86". Former is the UDOO Bolt v8 (Ryzen V1605B.) UDOO x86 single 900-1150 multi 2700-3300 UDOO BOLT v8 single 3676-4326 multi 9641-10868
Thanks. That's impressive. Right up there with the Samsung Galaxy S10. The results would be a bit more meaningful if the memory and SSD brand and model were known, and the OS. Does ECC ram impact performance? Here's the link for the V8: https://browser.geekbench.com/v4/cpu/search?utf8=✓&q=Seco+C40 and the X86: https://browser.geekbench.com/v4/cpu/search?utf8=✓&q=UDOO+x86 I wasn't able to find the other brand you mentioned. Here's the result for my Surface as a point of reference: 3594 6513 Microsoft Corporation Surface Pro Single-Core Score Multi-Core Score 3594 6513 Geekbench 4.3.3 Tryout for Windows x86 (64-bit) Result Information Upload Date April 23 2019 11:00 PM System Information Operating System Microsoft Windows 10 Pro (64-bit) Model Microsoft Corporation Surface Pro Motherboard Microsoft Corporation Surface Pro Memory 8118 MB DDR3 SDRAM 932MHz Northbridge Intel Kaby Lake 03 Southbridge Intel Coffee Lake-U/Y PCH 21 BIOS Microsoft Corporation 234.2291.769 Processor Information Name Intel Core i7-7660U Topology 1 Processor, 2 Cores, 4 Threads Identifier GenuineIntel Family 6 Model 142 Stepping 9 Base Frequency 2.50 GHz Maximum Frequency 3.99 GHz Package Socket 1528 FCBGA Codename Kaby Lake-U/Y L1 Instruction Cache 32.0 KB x 2 L1 Data Cache 32.0 KB x 2 L2 Cache 256 KB x 2 L3 Cache 4.00 MB x 1 Single-Core Performance Single-Core Score 3594 Crypto Score 3536 Integer Score 3798 Floating Point Score 3684 Memory Score 3016 AES 3536 2.66 GB/sec LZMA 3119 4.87 MB/sec JPEG 3728 30.0 Mpixels/sec Canny 3404 47.2 Mpixels/sec Lua 3763 3.87 MB/sec Dijkstra 3715 2.51 MTE/sec SQLite 3911 108.4 Krows/sec HTML5 Parse 3775 17.1 MB/sec HTML5 DOM 3948 3.58 MElements/sec Histogram Equalization 3832 119.8 Mpixels/sec PDF Rendering 3519 93.5 Mpixels/sec LLVM 5387 370.4 functions/sec Camera 3857 10.7 images/sec SGEMM 3362 71.1 Gflops SFFT 3697 9.22 Gflops N-Body Physics 3594 2.68 Mpairs/sec Ray Tracing 4006 585.1 Kpixels/sec Rigid Body Physics 3309 9686.9 FPS HDR 4053 14.7 Mpixels/sec Gaussian Blur 3808 66.7 Mpixels/sec Speech Recognition 3571 30.6 Words/sec Face Detection 3832 1.12 Msubwindows/sec Memory Copy 3002 8.32 GB/sec Memory Latency 3363 128.7 ns Memory Bandwidth 2719 14.5 GB/sec Multi-Core Performance Multi-Core Score 6513 Crypto Score 6090 Integer Score 7679 Floating Point Score 6905 Memory Score 3404 AES 6090 4.59 GB/sec LZMA 7685 12.0 MB/sec JPEG 8061 64.9 Mpixels/sec Canny 6951 96.4 Mpixels/sec Lua 6528 6.71 MB/sec Dijkstra 8690 5.88 MTE/sec SQLite 6655 184.5 Krows/sec HTML5 Parse 6358 28.9 MB/sec HTML5 DOM 7689 6.97 MElements/sec Histogram Equalization 8065 252.0 Mpixels/sec PDF Rendering 7217 191.8 Mpixels/sec LLVM 11276 775.3 functions/sec Camera 8070 22.4 images/sec SGEMM 4638 98.0 Gflops SFFT 6525 16.3 Gflops N-Body Physics 6736 5.03 Mpairs/sec Ray Tracing 6835 998.2 Kpixels/sec Rigid Body Physics 8472 24801.6 FPS HDR 8537 30.9 Mpixels/sec Gaussian Blur 6758 118.4 Mpixels/sec Speech Recognition 7204 61.6 Words/sec Face Detection 7281 2.13 Msubwindows/sec Memory Copy 4001 11.1 GB/sec Memory Latency 3007 143.9 ns Memory Bandwidth 3280 17.5 GB/sec
