Архиватор Игоря Павлова 7-Zip позволяет выполнить тест производительности Linux системы. Запустите терминал и выполните команду «7z b».

Ниже приведены в графическом представлении результаты тестов нескольких процессоров выполненные в различных дистрибутивах Linux на различных аппаратных платформах.

 

Tests #charts { padding: 20px; padding-right: 40px; font-family: Helvetica; } .bar { position: relative; box-sizing: border-box; margin: 2px; width: 100%; display:inline-flex; font-size: 14pt; } .chart_label { position: relative; margin: 5px; } .chart_column { position: absolute; border-radius: 6px; top:0; bottom: 0; left: 200px; background: linear-gradient(90deg, rgba(142,255,0,1) 0%, rgba(255,64,0,1) 60vw);; transition-property: width; transition-duration: 1s; width: 0; } .score_place { position: relative; background-color: red; color: white; width: 100px; height: 100%; margin: 0; padding: 5px; border-radius: 6px; text-align: center; } .arch { position: relative; background-color: magenta; color: white; width: 80px; height: 100%; margin: 0; padding: 5px; border-radius: 6px; text-align: center; }

let devices = [ {name: "Intel(R) Xeon(R) CPU E5-2697 v3 @ 2.60GHz × 56 (2CPU по 14 ядер 28 потоков) (35M Cache, 145W, 22nm, FCLGA2011-3)", score: 91600, date: "0", arch: "x64"}, {name: "AMD Ryzen 9 7940HS w/ Radeon 780M Graphics (16) @ 5.423GHz", score: 68200, date: "2024-02-16", arch: "x64"}, {name: "Apple M1 Pro MacBookPro18 8 threads @ 3,2 GHz", score: 40200, date: "0", arch: "ARM64"}, {name: "AMD Ryzen 5 5500U with Radeon Graphics 12 threads @ 4.056GHz (Cache 3/8 MB, TSMC 7nm FinFET, до 25W)", score: 36500, date: "2023-01-17", arch: "x64"}, {name: "AMD Ryzen 7 5700U with Radeon Graphics (16) @ 4.372GHz", score: 46300, date: "2024-05-09", arch: "x64"}, {name: "AMD Ryzen 7 4800H with Radeon Graphics (860F01)", score: 29000, arch: "x64", date: "0"}, {name: "Intel® Xeon(R) CPU E3-1270 V2 @ 3.50GHz × 8 (8M Cache, 69W, 22nm, FCLGA1155)", score: 18500, arch: "x64", date: "0"}, {name: "Intel® Core™ i7-3630QM CPU @ 2.40GHz up 3,40GHz × 8 (6M Cache, 45W, 22nm, FCPGA988)", score: 18400, arch: "x64", date: "0"}, {name: "Intel(R) Core(TM) i5-8265U CPU @ 3.90GHz x 8 (4-core, 4-threads)", score: 16800, arch: "x64", date: "0"}, {name: "Qualcomm Snapdragon 778G (SM7325 @ 1.804GHz x8) HONOR 50", score: 16800, arch: "ARM64", date: "0"}, {name: "Intel(R) Core(TM) i3-8100 CPU @ 3.60GHz × 4 (6M Cache, 65W, 14nm, FCLGA1151)", score: 16200, arch: "x64", date: "0"}, {name: "Intel® Core™ i5-3470 CPU @ 3.20GHz x 4 (6M Cache, 77W, 22nm, FCLGA1155)", score: 14100, arch: "x64", date: "0"}, {name: "Intel® Xeon(R) CPU E5405 @ 2.00GHz × 8 (2 CPU) (12M Cache, 80W, 45nm, LGA771)", score: 14000, arch: "x64", date: "0"}, {name: "Intel® Core™ i5-4460 CPU @ 3.20GHz × 4 (6M Cache, 84W, 22nm, FCLGA1150)", score: 13900, arch: "x64", date: "0"}, {name: "Snapdragon 695 @ 1.804GHz x 8 HONOR 9", score: 13200, arch: "ARM64", date: "0"}, {name: "Intel Core(tm) i3-2105 CPU @ 3.10GHz x 4 (3M Cache, HT, 65W, 32nm, FCLGA1155)", score: 8700, arch: "x64", date: "0"}, {name: "Intel Core(tm) i3-2100 CPU @ 3.10GHz x 4 (3M Cache, HT, 65W, 32nm, FCLGA1155)", score: 9040, arch: "x64", date: "0"}, {name: "Intel(R) Celeron(R) N4100 CPU @ 1.10GHz x 4 (4M Cache, 6W, 14nm, Gemini Lake, FCBGA1090)", score: 7300, arch: "x64", date: "0"}, {name: "AMD® Athlon gold 3150u with radeon graphics × 4", score: 6580, arch: "x64", date: "0"}, {name: "Intel® Pentium(R) CPU G2120 @ 3.10GHz × 2 (3M Cache, 55W, 22nm, FCLGA1155, DDR3-1600)", score: 6370, arch: "x64", date: "0"}, {name: "Intel® Core™ i3-5010U Processor @ 2.10GHz x 4 Threads (3M Cache, 15W, 14nm)", score: 6130, arch: "x64", date: "0"}, {name: "Intel® Celeron(R) CPU J1900 @ 2.00GHz up 2,42GHz × 4 (2M Cache, 10W, 22nm, FCBGA1170)", score: 6000, arch: "x64", date: "0"}, {name: "AMD Athlon(tm) II X2 270 Processor @ 3.4GHz × 2 (2M Cache, 65W, 45nm, AM3, DDR3)", score: 5820, arch: "x64", date: "0"}, {name: "Intel® Pentium® CPU G2010 @ 2.80GHz × 2 (3M Cache, 55W, 22nm, FCLGA1155, DDR3-1333)", score: 5800, arch: "x64", date: "0"}, {name: "Broadcom® BCM2711 @ 1.5GHz × 4 (ARM v8 A72 core 1M L2 Cache, OpenGL ES, 3.0 graphics)", score: 5740, arch: "ARM64", date: "0"}, {name: "Intel® Core™2 Duo CPU E8400 @ 3.00GHz × 2 (6M Cache, 65W, 45nm, LGA775)", score: 5320, arch: "x64", date: "0"}, {name: "Intel(R) Pentium(R) CPU G850 @ 2.90GHz x 2 (3M Cache, 65W, 32nm, FCLGA1155)", score: 5300, arch: "x64", date: "0"}, {name: "Amlogic S905X3 ARM Cortex A55 @ 2.0GHz x 4 (ARMv8) TV-box X96max", score: 5280, arch: "ARM64", date: "0"}, {name: "Pentium(R) Dual-Core CPU E5700 @ 3.00GHz × 2 (2M Cache, 65W, 45nm, LGA775)", score: 4820, arch: "x64", date: "0"}, {name: "Intel® Core™2 Duo CPU E7200 @ 2.53GHz × 2 (3Mb Cache, 65W, 45 nm, LGA775)", score: 4690, arch: "x64", date: "0"}, {name: "Intel® Core™2 Duo CPU E8200 @ 2.66GHz × 2 (6Mb Cache, 65W, 45 nm, LGA775)", score: 4630, arch: "x64", date: "0"}, {name: "Allwinner H6 Quad-core Cortex-A53 64bit @ 1.7GHz × 4 (Orange Pi One Plus)", score: 4770, arch: "ARM64", date: "0"}, {name: "Intel(R) Celeron(R) CPU G530 @ 2.40GHz x 2 (2M Cache, 65W, 32nm, FCLGA1155)", score: 4530, arch: "x64", date: "0"}, {name: "Intel® Core™2 Duo E6550 @ 2.33GHz x 2 (4M Cache, 65W, 65nm, PLGA775)", score: 4400, arch: "x64", date: "0"}, {name: "Intel(R) Intel® Core™2 Duo CPU E4600 @ 2.40GHz x 2 (2M Cache, 65W, 65nm, LGA775)", score: 4110, arch: "x64", date: "0"}, {name: "Allwinner H618 Quad-core Cortex-A53 64bit SoC @ 1.5GHz × 4 (Orange Pi Zero3)", score: 3990, arch: "ARM64", date: "0"}, {name: "Intel(R) Intel® Celeron(R) CPU E3500 @ 2.70GHz × 2 (1M Cache, 65W, 45nm, LGA775)", score: 3960, arch: "x64", date: "0"}, {name: "Broadcom BCM2837B0 Quad-core Cortex-A53 64bit SoC @ 1.4GHz × 4 (Raspberry Pi 3 Model B+)", score: 3750, arch: "ARM64", date: "0"}, {name: "Allwinner H616 Quad-core Cortex-A53 64bit SoC @ 1.5GHz × 4 (Orange Pi Zero2 or TV-box Transpeed 6K Ultra HD)", score: 3740, arch: "ARM64", date: "0"}, {name: "Intel(R) Pentium(R) Dual CPU E2220 @ 2.40GHz × 2 (1M Cache, 65W, 65nm, LGA775)", score: 3500, arch: "x64", date: "0"}, {name: "Intel(R) Core(TM) i3 CPU M 380 @ 2.533GHz x 4 Threads (3 MB Intel® Smart Cache, 64-bit, 32nm, 35W, PGA988)", score: 3450, arch: "x64", date: "0"}, {name: "Broadcom BCM2837 Quad-core Cortex-A53 64bit SoC @ 1.2GHz × 4 (Raspberry Pi 3 Model B)", score: 3330, arch: "ARM64", date: "0"}, {name: "Intel(R) Core™2 CPU 6400 @ 2.13GHz × 2 (2M Cache, 65W, 65nm, LGA775)", score: 3320, arch: "x64", date: "0"}, {name: "Allwinner H5 Quad-core Cortex-A53 64bit (Orange Pi PC 2)", score: 3060, arch: "ARM64", date: "0"}, {name: "Amlogic S905L2 Quad-core Cortex-A53 64bit SoC @ 1.2GHz x4 (TV box Q96 mini+)", score: 3010, arch: "ARM64", date: "0"}, {name: "Intel® Core™ Duo T2400 @ 1.83GHz x 2 (32 bit, 2M Cache, 31W, 65nm, PBGA479, PPGA478)", score: 2650, arch: "x86", date: "0"}, {name: "Amlogic S905W @ 1,0 GHz x 4 ARM v8 (TV-box MXQpro 4K)", score: 2570, arch: "ARM64", date: "0"}, {name: "Allwinner H3 Quad-core Cortex-A7 H.265/HEVC 4K 1296MHz (Orange Pi PC)", score: 2300, arch: "ARM32", date: "0"}, {name: "Intel® Celeron® Mobile Processor Number 550 @2.00 GHz, Intel® 64-bit, 65 nm, L2 Cache 1 MB, PPGA478, PBGA479", score: 172, arch: "x86", date: "0"}, {name: "AMD Sempron(tm) Processor 2800+", score: 1440, arch: "x86", date: "0"}, {name: "Intel® Celeron(R) CPU 2.80GHz", score: 1320, arch: "x86", date: "0"}, {name: "Intel Atom® серии N280 @ 1,66 GHz x2 (Hyper-Threading, 512 KB L2, 2,5W, 45 nm, PBGA437)", score: 1280, arch: "x86", date: "0"}, {name: "Intel(R) Pentium(R) M processor 1.60GHz", score: 1250, arch: "x86", date: "0"}, {name: "Intel(R) Celeron(R) M CPU 430 @1.73GHz", score: 1200, arch: "x86", date: "0"}, {name: "Intel(R) Celeron(R) 3GHz", score: 1190, arch: "x86", date: "0"}, {name: "AMD Sempron(tm) LE-1100", score: 1120, arch: "x86", date: "0"}, {name: "Intel(R) Pentium(R) 4 CPU 2.4GHz (512K Cache, 533MHz FSB, 60W, 130nm, PPGA478)", score: 1020, arch: "x86", date: "0"}, {name: "МЦСТ Эльбрус MBE1C-PC CPU E1C+ (e2k) 800 MHz", score: 940, arch: "ЭЛБ", date: "0"}, {name: "Intel(R) Pentium(R) 4 CPU 2.26GHz (512K Cache, 58W, 130nm, PPGA478)", score: 925, arch: "x86", date: "0"}, {name: "AMD Athlon(tm) XP 1600+ 1400MHz", score: 778, arch: "x86", date: "0"}, {name: "Celeron® 2 GHz (128KB Cache, 52.8W, 0.13 Micron, 478-Pin Package)", score: 707, arch: "x86", date: "0"}, {name: "AMD Athlon(tm) XP 1250MHz", score: 696, arch: "x86", date: "0"}, {name: "Celeron(TM) (Tualatin) 1000MHz cache size 256 KB", score: 627, arch: "x86", date: "0"}, {name: "Pentium III (Coppermine) 800MHz cache size 256 KB FSB 133MHz", score: 562, arch: "x86", date: "0"}, {name: "Celeron (Coppermine) 800MHz cache size 128 KB", score: 455, arch: "x86", date: "0"}, {name: "Celeron (Coppermine) 633MHz cache size 128 KB", score: 385, arch: "x86", date: "0"}, {name: "Intel® Celeron® M, 800 МГц, Cache 512 Kb, 130 nm, 7 W", score: 378, arch: "x86", date: "0"}, {name: "Celeron (Coppermine) 566MHz cache size 128 KB", score: 355, arch: "x86", date: "0"}, {name: "Celeron (Coppermine) 533MHz cache size 128 KB", score: 341, arch: "x86", date: "0"}, {name: "Pentium III (Coppermine) 366MHz cache size 256 KB", score: 268, arch: "x86", date: "0"}, {name: "ARM926EJ-S rev 5 (v5l) (1) @ 225 MHz LEGO MINDSTORMS EV3", score: 99, arch: "ARM32", date: "0"} ] const archColors = { "x86": {bg: "#6A00FA", text: "white"}, "ARM64": {bg: "orange", text: "white"}, "x64": {bg: "#00FAE7", text: "black"}, "ARM32": {bg: "yellow", text: "black"}, "ЭЛБ": {bg: "magenta", text: "black"} } chartsDiv = document.getElementById("charts") devices = devices.sort((a, b) => {return -a.score+b.score}) let newBar let newColumn let newLabel let newScore let newArch let first_flag = true let sector = 3 const sectors = { 2: {from: 10000, to: Infinity, str: "более 10000"}, 1: {from: 1000, to: 10000, str: "от 1000 до 10000"}, 0: {from: 0, to: 1000, str: "от 0 до 1000"} } let highScore for (i of devices) { if (first_flag || (i.score < sectors[sector].from)) { sector --; let e = document.createElement("h2") e.innerHTML = "Микропроцессоры с счётом "+sectors[sector].str chartsDiv.appendChild(e) first_flag = false; highScore = i.score console.log(highScore) } newBar = document.createElement("div") newBar.className="bar" newColumn = document.createElement("div") newColumn.className="chart_column" newLabel = document.createElement("div") newLabel.className="chart_label" newLabel.innerHTML = i.name newScore = document.createElement("div") newScore.className = "score_place" newArch = document.createElement("div") newArch.className = "arch" newArch.innerHTML = i.arch newArch.style.backgroundColor = archColors[i.arch].bg newArch.style.color = archColors[i.arch].text newScore.innerHTML = i.score newBar.appendChild(newScore) newBar.appendChild(newArch) newBar.appendChild(newColumn) newBar.appendChild(newLabel) chartsDiv.appendChild(newBar) i.width = (80*i.score/highScore)+"%" i.element = newBar } setTimeout(function() { for (i of devices) { i.element.children[2].style.width = i.width } }, 100)