微星Cyborg 15 A12VF回顾:带有低功耗RTX4060的游戏笔记本
来自微星的移动游戏笔记本电脑不希望--也没有能力--建立任何新的性能记录。这台酷睿i7-12650H和 GeForce RTX 4060以保守的功率限制和低TGP(45瓦)运行,导致相当低的功率消耗。笔记本电脑只需要一个120瓦的电源即可。竞争对手包括笔记本电脑,如 华硕TUF游戏机A16 FA617,以及Aorus 15 XE5,以及MSI Katana 15 B12VEK,惠普惠普Victus 15,以及 申克XMG Fusion 15.
潜在的竞争对手比较
Rating | Date | Model | Weight | Height | Size | Resolution | Price |
|---|---|---|---|---|---|---|---|
| 82.4 % v7 (old) | 04 / 2023 | MSI Cyborg 15 A12VF i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU | 2 kg | 22.9 mm | 15.60" | 1920x1080 | |
| 86.2 % v7 (old) | 02 / 2023 | Asus TUF Gaming A16 FA617 R7 7735HS, Radeon RX 7600S | 2.2 kg | 27 mm | 16.00" | 1920x1200 | |
| 85.5 % v7 (old) | 12 / 2022 | Aorus 15 XE5 i7-12700H, GeForce RTX 3070 Ti Laptop GPU | 2.3 kg | 24 mm | 15.60" | 2560x1440 | |
| 87.4 % v7 (old) | 08 / 2022 | SCHENKER XMG Fusion 15 (Mid 22) i7-11800H, GeForce RTX 3070 Laptop GPU | 1.9 kg | 21.65 mm | 15.60" | 2560x1440 | |
| 82.9 % v7 (old) | 03 / 2023 | MSI Katana 15 B12VEK i7-12650H, NVIDIA GeForce RTX 4050 Laptop GPU | 2.3 kg | 24.9 mm | 15.60" | 1920x1080 | |
| 81 % v7 (old) | 01 / 2023 | HP Victus 15 fa0020nr i7-12700H, GeForce RTX 3050 Ti Laptop GPU | 2.3 kg | 23.6 mm | 15.60" | 1920x1080 |
机箱 - A12VF,具有180度开启角度
这个紧凑的机箱的大部分部分都是由塑料制成的,只有机箱盖的背面使用了金属。微星采用了主要是独立的设计,这台笔记本电脑在专业的办公室环境中不会显得格格不入。黑色的底色被一些透明的外壳元素(如外壳底部)所松动,绿松石蓝的键盘照明也增加了一些色彩。
这台笔记本电脑在做工方面没有暴露出任何缺陷。缝隙很均匀,我们没有注意到任何材料的突起。虽然底座和盖子可以翘起来,但这仍然在限度之内。铰链将盖子紧紧地固定住,最大打开角度为180度。笔记本电脑可以用一只手打开。
虽然微星笔记本电脑的尺寸与竞争对手相似,但它是15.6英寸格式中较轻的游戏笔记本电脑之一。
设备 - 微星笔记本电脑不提供Thunderbolt技术
连接设备有限,有两个可用的USB-A端口(USB 3.2 Gen 1)和一个USB-C端口(USB 3.2 Gen 1)。后者还支持DisplayPort。一起有两个视频输出选项(1个DP,1个HDMI)。此外,还有一个组合音频端口,一个千兆以太网端口,以及一个用于电缆锁的开口。一个存储卡读卡器是不存在的。
沟通
在最佳条件下确定的WLAN传输率(附近没有额外的WLAN设备,笔记本电脑和服务器PC之间的距离很短)结果非常好,与Wi-Fi芯片(英特尔AX201)的能力相符。有线网络连接由Realtek公司的千兆以太网芯片(RTL8168/8111;1 Gbit/s)处理。
网络摄像头
网络摄像头(90万像素,最大1,280 x 720像素)没有提供一个机械盖。它所提供的质量是标准票价。颜色精度不够,颜色偏差约为16,达不到DeltaE < 3的目标。
辅料
除了通常的文件(快速启动说明和保修信息)外,该笔记本电脑不包括任何额外的附件。
维护
在卸下底部的所有螺丝后,可以用一个小的撬动工具或铲子帮助卸下机箱底部。但你必须小心,因为它是由相当紧的塑料夹子固定的。拆下底部后,你可以看到工作内存库(两个都占用)、SSD(PCIe 4)、BIOS电池、WLAN模块、风扇、扬声器和电池。
担保
微星在德国为这台15.6英寸的笔记本电脑提供2年的保修期。你也可以购买延长一年或两年的保修期,价格分别为120欧元和250欧元(约133美元和276美元)。
输入设备--Cyborg区分了游戏的WASD键
键盘
发光小键盘的平坦和光滑的按键提供了一个短的行程和清晰的压力点。键盘的阻力很好。键盘在打字时有一些轻微的摆动,但这并不令人讨厌。作为微星设备的典型,"Fn "键没有像其他笔记本键盘那样被放在相同的位置。单色的键盘照明提供了三个等级的亮度,并通过一个功能键进行控制。总的来说,微星提供了一个适合日常操作的键盘。
触摸板
具有多点触摸功能的Clickpad(约12 x 7.5厘米,约4.7 x 2.8英寸)的光滑表面有利于手指的滑动。它对角落里的输入有反应,也提供了一个短行程和清晰的压力点。
显示屏 - FHD面板,色彩空间覆盖率低
16:9格式的144-Hz面板只能提供一般的响应时间。另一方面,它在任何亮度下都不会出现PWM闪烁的事实是一个积极的观点。哑光15.6英寸FHD显示屏的亮度和对比度没有达到相应的目标,即分别为>1,000:1和300 cd/m²,尽管对比度接近。
竞争对手在这里做得更好,我们比较领域中的其他设备都有更明亮的显示屏。
| |||||||||||||||||||||||||
Brightness Distribution: 89 %
Center on Battery: 250 cd/m²
Contrast: 988:1 (Black: 0.25 cd/m²)
ΔE Color 3.78 | 0.5-29.43 Ø4.91, calibrated: 3.94
ΔE Greyscale 2.16 | 0.5-98 Ø5.2
43.7% AdobeRGB 1998 (Argyll 2.2.0 3D)
62.6% sRGB (Argyll 2.2.0 3D)
42.3% Display P3 (Argyll 2.2.0 3D)
Gamma: 2.33
| MSI Cyborg 15 A12VF AU Optronics B156HAN15.1, IPS, 1920x1080, 15.6" | Asus TUF Gaming A16 FA617 NE160WUM-NX2 (BOE0B33), IPS-Level, 1920x1200, 16" | Aorus 15 XE5 Chi Mei N156KME-GNA, IPS, 2560x1440, 15.6" | SCHENKER XMG Fusion 15 (Mid 22) BOE CQ NE156QHM-NY2, IPS, 2560x1440, 15.6" | MSI Katana 15 B12VEK AUOAF90 (B156HAN08.4), IPS, 1920x1080, 15.6" | HP Victus 15 fa0020nr CMN1521, IPS, 1920x1080, 15.6" | |
|---|---|---|---|---|---|---|
| Display | 61% | 93% | 56% | -10% | -1% | |
| Display P3 Coverage | 42.3 | 69.4 64% | 95.2 125% | 67.3 59% | 38.1 -10% | 42 -1% |
| sRGB Coverage | 62.6 | 97.8 56% | 99.9 60% | 96.7 54% | 56.8 -9% | 62.7 0% |
| AdobeRGB 1998 Coverage | 43.7 | 70.9 62% | 84.5 93% | 68.2 56% | 39.3 -10% | 43.4 -1% |
| Response Times | 26% | 37% | 49% | -84% | -77% | |
| Response Time Grey 50% / Grey 80% * | 22 ? | 17 ? 23% | 14.4 ? 35% | 11.6 ? 47% | 38.8 ? -76% | 35.2 ? -60% |
| Response Time Black / White * | 14 ? | 10.1 ? 28% | 8.6 ? 39% | 7 ? 50% | 26.8 ? -91% | 27.2 ? -94% |
| PWM Frequency | ||||||
| Screen | 31% | 1% | -8% | -28% | -13% | |
| Brightness middle | 247 | 308 25% | 336 36% | 326 32% | 261 6% | 284.3 15% |
| Brightness | 234 | 293 25% | 316 35% | 303 29% | 258 10% | 262 12% |
| Brightness Distribution | 89 | 90 1% | 89 0% | 89 0% | 92 3% | 87 -2% |
| Black Level * | 0.25 | 0.23 8% | 0.34 -36% | 0.33 -32% | 0.19 24% | 0.17 32% |
| Contrast | 988 | 1339 36% | 988 0% | 988 0% | 1374 39% | 1672 69% |
| Colorchecker dE 2000 * | 3.78 | 1.47 61% | 3.36 11% | 2.73 28% | 5.57 -47% | 4.52 -20% |
| Colorchecker dE 2000 max. * | 6.42 | 2.98 54% | 6.67 -4% | 9.54 -49% | 20.6 -221% | 18.67 -191% |
| Colorchecker dE 2000 calibrated * | 3.94 | 1.02 74% | 0.74 81% | 1.36 65% | 4.63 -18% | 1.55 61% |
| Greyscale dE 2000 * | 2.16 | 2.2 -2% | 4.7 -118% | 5.2 -141% | 3.19 -48% | 4.1 -90% |
| Gamma | 2.33 94% | 2.228 99% | 2.244 98% | 2.074 106% | 2.45 90% | 2.3 96% |
| CCT | 6906 94% | 6228 104% | 6897 94% | 6911 94% | 6146 106% | 6529 100% |
| Total Average (Program / Settings) | 39% /
37% | 44% /
26% | 32% /
14% | -41% /
-32% | -30% /
-19% |
* ... smaller is better
在交付状态下,显示器的色彩再现非常得体,3.8的偏差仅勉强达到DeltaE<3的目标。虽然校准增加了色彩偏差,但也确保了更平衡的灰度。
该面板无法覆盖AdobeRGB(44%)、sRGB(63%)和DCI-P3(42%)色彩空间。因此,它不适合依赖于色彩准确性的应用场景。竞争者,如 华硕TUF Gaming A16 FA617和 XMG Fusion 15更适合这里,它们的显示器能够覆盖sRGB色彩空间。
Display Response Times
| ↔ Response Time Black to White | ||
|---|---|---|
| 14 ms ... rise ↗ and fall ↘ combined | ↗ 7 ms rise |  |
| ↘ 7 ms fall | ||
| The screen shows good response rates in our tests, but may be too slow for competitive gamers. In comparison, all tested devices range from 0.1 (minimum) to 240 (maximum) ms. » 31 % of all devices are better. This means that the measured response time is better than the average of all tested devices (20.9 ms). | ||
| ↔ Response Time 50% Grey to 80% Grey | ||
| 22 ms ... rise ↗ and fall ↘ combined | ↗ 9 ms rise |  |
| ↘ 13 ms fall | ||
| The screen shows good response rates in our tests, but may be too slow for competitive gamers. In comparison, all tested devices range from 0.165 (minimum) to 636 (maximum) ms. » 30 % of all devices are better. This means that the measured response time is better than the average of all tested devices (32.8 ms). | ||
Screen Flickering / PWM (Pulse-Width Modulation)
| Screen flickering / PWM not detected |  | ||
In comparison: 53 % of all tested devices do not use PWM to dim the display. If PWM was detected, an average of 8705 (minimum: 5 - maximum: 343500) Hz was measured. | |||
IPS面板的可视角度很稳定,从任何角度都可以轻松阅读。在户外,当太阳不太亮时,可以阅读显示内容。
表现--阿尔德湖和阿达-拉芙蕾丝被紧紧束缚住了
通过Cyborg 15 A12VF系列,微星提供了移动游戏笔记本电脑,使用了 GeForce RTX 4060 Laptop图形核心的低功率配置,TGP为45瓦。这伴随着来自英特尔的Alder Lake处理器。在本次测试时,A12VF型号的价位大约在1250至1800欧元之间(约1382至1989美元)。我们的测试设备的价格位于这一规模的高端。
测试条件
预装的微星中心软件(见图片)或 "Fn "+"F7 "组合键允许你在四个性能配置文件之间切换(见下表)。我们使用 "极限性能 "配置文件进行基准测试,使用 "超级电池 "进行电池测试。另外,还有一个基于人工智能的 "智能自动 "功能,可以自动选择最适合当前使用场景的配置文件。
| 极端性能 | 平衡 | 静音模式 | 超级电池 | |
|---|---|---|---|---|
| 功率限制1 | 55瓦 | 45瓦 | 20瓦 | 15瓦 |
| 功率限制2 | 78瓦 | 70瓦 | 20瓦 | 15瓦 |
处理器
芯片酷睿i7-12650HAlder Lake处理器由六个性能核心(超线程,2.3至4.7 GHz)和四个效率核心(无超线程,1.7至3.5 GHz)组成,总共有16个逻辑CPU核心。
在主电源操作中,CPU以中高到高(多线程)和高到最高(单线程)的时钟速度运行Cinebench R15基准的CPU测试。在电池运行中,单线程性能略有下降(205分),而多线程性能下降更为明显(994分)。总的来说,基准测试结果范围略高于我们迄今为止确定的CPU的平均水平。
CB15循环测试显示,持续的多线程负载导致涡轮速度在第二次运行后略有下降,处理器无法保持恒定水平。
Cinebench R15 Multi Constant Load Test
* ... smaller is better
AIDA64: FP32 Ray-Trace | FPU Julia | CPU SHA3 | CPU Queen | FPU SinJulia | FPU Mandel | CPU AES | CPU ZLib | FP64 Ray-Trace | CPU PhotoWorxx
| Performance Rating | |
| Average of class Gaming | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Aorus 15 XE5 | |
| MSI Cyborg 15 A12VF | |
| HP Victus 15 fa0020nr | |
| Average Intel Core i7-12650H | |
| AIDA64 / FP32 Ray-Trace | |
| Average of class Gaming (4986 - 60169, n=183, last 2 years) | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| Aorus 15 XE5 | |
| HP Victus 15 fa0020nr | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H (5422 - 15620, n=14) | |
| AIDA64 / FPU Julia | |
| Average of class Gaming (25360 - 252486, n=183, last 2 years) | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| Aorus 15 XE5 | |
| HP Victus 15 fa0020nr | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Average Intel Core i7-12650H (26386 - 76434, n=14) | |
| AIDA64 / CPU SHA3 | |
| Average of class Gaming (1339 - 10389, n=183, last 2 years) | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| Aorus 15 XE5 | |
| MSI Cyborg 15 A12VF | |
| HP Victus 15 fa0020nr | |
| Average Intel Core i7-12650H (1479 - 3244, n=14) | |
| AIDA64 / CPU Queen | |
| Average of class Gaming (50699 - 200651, n=183, last 2 years) | |
| Asus TUF Gaming A16 FA617 | |
| Aorus 15 XE5 | |
| HP Victus 15 fa0020nr | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H (59278 - 89537, n=14) | |
| AIDA64 / FPU SinJulia | |
| Average of class Gaming (4800 - 32988, n=183, last 2 years) | |
| Asus TUF Gaming A16 FA617 | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| MSI Katana 15 B12VEK | |
| Aorus 15 XE5 | |
| MSI Cyborg 15 A12VF | |
| HP Victus 15 fa0020nr | |
| Average Intel Core i7-12650H (4690 - 8726, n=14) | |
| AIDA64 / FPU Mandel | |
| Asus TUF Gaming A16 FA617 | |
| Average of class Gaming (12321 - 134044, n=183, last 2 years) | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| MSI Cyborg 15 A12VF | |
| Aorus 15 XE5 | |
| Average Intel Core i7-12650H (15001 - 37738, n=14) | |
| AIDA64 / CPU AES | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Aorus 15 XE5 | |
| Average of class Gaming (19065 - 328679, n=183, last 2 years) | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| Asus TUF Gaming A16 FA617 | |
| HP Victus 15 fa0020nr | |
| Average Intel Core i7-12650H (32702 - 92530, n=14) | |
| AIDA64 / CPU ZLib | |
| Average of class Gaming (373 - 2409, n=183, last 2 years) | |
| MSI Cyborg 15 A12VF | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| Aorus 15 XE5 | |
| HP Victus 15 fa0020nr | |
| Average Intel Core i7-12650H (443 - 891, n=14) | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| AIDA64 / FP64 Ray-Trace | |
| Average of class Gaming (2540 - 31796, n=183, last 2 years) | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Aorus 15 XE5 | |
| HP Victus 15 fa0020nr | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H (3096 - 8448, n=14) | |
| AIDA64 / CPU PhotoWorxx | |
| Average of class Gaming (10805 - 60161, n=184, last 2 years) | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| Aorus 15 XE5 | |
| Average Intel Core i7-12650H (22046 - 44164, n=14) | |
| Asus TUF Gaming A16 FA617 | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
系统性能
你不能指望这个平稳运行的系统有极高的性能,因为它更注重其他方面,如紧凑的尺寸、移动性和低耗能。尽管如此,所使用的硬件能够处理苛刻的应用领域,如渲染、视频处理和游戏。工作内存的传输率对于DDR5-4800内存来说处于正常水平。它们伴随着良好的PC-Mark结果。
CrossMark: Overall | Productivity | Creativity | Responsiveness
| PCMark 10 / Score | |
| Average of class Gaming (5776 - 9852, n=164, last 2 years) | |
| Aorus 15 XE5 | |
| Asus TUF Gaming A16 FA617 | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| HP Victus 15 fa0020nr | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| PCMark 10 / Essentials | |
| Average of class Gaming (9057 - 12334, n=163, last 2 years) | |
| Aorus 15 XE5 | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| Asus TUF Gaming A16 FA617 | |
| HP Victus 15 fa0020nr | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| PCMark 10 / Productivity | |
| Aorus 15 XE5 | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| Average of class Gaming (6662 - 14612, n=163, last 2 years) | |
| MSI Katana 15 B12VEK | |
| Asus TUF Gaming A16 FA617 | |
| HP Victus 15 fa0020nr | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| PCMark 10 / Digital Content Creation | |
| Average of class Gaming (6703 - 18475, n=163, last 2 years) | |
| Aorus 15 XE5 | |
| Asus TUF Gaming A16 FA617 | |
| HP Victus 15 fa0020nr | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| CrossMark / Overall | |
| Aorus 15 XE5 | |
| Average of class Gaming (1247 - 2344, n=147, last 2 years) | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| CrossMark / Productivity | |
| Aorus 15 XE5 | |
| Average of class Gaming (1299 - 2204, n=147, last 2 years) | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| CrossMark / Creativity | |
| Average of class Gaming (1275 - 2660, n=147, last 2 years) | |
| Aorus 15 XE5 | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| MSI Katana 15 B12VEK | |
| HP Victus 15 fa0020nr | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| CrossMark / Responsiveness | |
| Aorus 15 XE5 | |
| Average of class Gaming (1030 - 2330, n=147, last 2 years) | |
| MSI Cyborg 15 A12VF | |
| Average Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU () | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| MSI Katana 15 B12VEK | |
| HP Victus 15 fa0020nr | |
| PCMark 8 Home Score Accelerated v2 | 5364 points | |
| PCMark 8 Work Score Accelerated v2 | 6432 points | |
| PCMark 10 Score | 7098 points | |
Help | ||
| AIDA64 / Memory Copy | |
| Average of class Gaming (21842 - 94222, n=183, last 2 years) | |
| MSI Cyborg 15 A12VF | |
| MSI Katana 15 B12VEK | |
| Average Intel Core i7-12650H (43261 - 69735, n=14) | |
| Aorus 15 XE5 | |
| Asus TUF Gaming A16 FA617 | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| AIDA64 / Memory Read | |
| Average of class Gaming (23681 - 99713, n=183, last 2 years) | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| Aorus 15 XE5 | |
| Average Intel Core i7-12650H (47313 - 67412, n=14) | |
| Asus TUF Gaming A16 FA617 | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| AIDA64 / Memory Write | |
| Average of class Gaming (22986 - 108954, n=183, last 2 years) | |
| Aorus 15 XE5 | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| Asus TUF Gaming A16 FA617 | |
| Average Intel Core i7-12650H (45617 - 59361, n=14) | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| AIDA64 / Memory Latency | |
| Aorus 15 XE5 | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Average of class Gaming (59.5 - 259, n=183, last 2 years) | |
| MSI Cyborg 15 A12VF | |
| Asus TUF Gaming A16 FA617 | |
| Average Intel Core i7-12650H (71.6 - 103.9, n=14) | |
| HP Victus 15 fa0020nr | |
* ... smaller is better
DPC延迟
标准化的延迟监测测试(网络冲浪、4k视频再现、Prime95高负荷)显示了一些明显的延迟,而且该系统似乎不适合实时视频和音频处理。未来的软件更新可能会带来一些改进,甚至使事情变得更糟。
| DPC Latencies / LatencyMon - interrupt to process latency (max), Web, Youtube, Prime95 | |
| MSI Katana 15 B12VEK | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| HP Victus 15 fa0020nr | |
| MSI Cyborg 15 A12VF | |
| Aorus 15 XE5 | |
| Asus TUF Gaming A16 FA617 | |
* ... smaller is better
存储解决方案
微星为Cyborg配备了三星的PCIe 4固态硬盘(M.2-2280),提供1TB的存储容量。尽管它提供了良好的传输率,但它并不是固态硬盘中的顶级型号之一。
虽然笔记本上有第二个固态硬盘的空间,但微星省去了连接它的必要插槽。这个决定在这个价格级别的笔记本电脑中很难被证明。在这一点上,添加第二个存储模块的选项已经成为标准,特别是对于游戏笔记本来说。
* ... smaller is better
Disk Throttling: DiskSpd Read Loop, Queue Depth 8
图形卡
笔记本电脑GeForce RTX 4060笔记本电脑GPU提供了3072个着色器,128位总线,以及8192MB的快速GDDR6内存。微星配置的TGP为45瓦(35瓦+10瓦动态),这是一个处于其能力底端的数值。但根据我们的TheWitcher 3 测试,至少TGP被完全使用。这台笔记本电脑没有提供dGPU模式。
基准测试结果低于RTX 4060 GPU的当前平均水平并不令人惊讶,但我们必须将其与功耗联系起来考虑。微星Katana 17的RTX 4060 GPU(TGP:105瓦)的TGP是其两倍多。MSI Katana 17的RTX 4060 GPU(TGP:105瓦)实现的结果 "只 "比平均水平高30-40%。这意味着45瓦的RTX 4060在这里运行非常有效。
微星中心为GPU和图形存储提供了超频选项,但只有在激活 "极限性能 "配置文件时(你必须点击齿轮符号)。你总是在自己的风险下使用这个选项,如果有一些问题或不稳定,你必须删除超频。
| 3DMark 06 Standard Score | 48240 points | |
| 3DMark 11 Performance | 26146 points | |
| 3DMark Cloud Gate Standard Score | 57304 points | |
| 3DMark Fire Strike Score | 18086 points | |
| 3DMark Time Spy Score | 7918 points | |
Help | ||
* ... smaller is better
游戏性能
这台笔记本电脑是为高至最高设置的FHD游戏而设计的。如果你连接相应的显示器,你可以使用更高的分辨率--但只能在部分降低的设置下。我们测试的游戏的帧率范围低于我们为RTX 4060 GPU确定的平均水平。
| The Witcher 3 - 1920x1080 Ultra Graphics & Postprocessing (HBAO+) | |
| Average of class Gaming (18.4 - 216, n=163, last 2 years) | |
| MSI Katana 17 B13VFK | |
| Average NVIDIA GeForce RTX 4060 Laptop GPU (77 - 159.7, n=42) | |
| Aorus 15 XE5 | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| Asus TUF Gaming A16 FA617 | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| HP Victus 15 fa0020nr | |
| GTA V - 1920x1080 Highest Settings possible AA:4xMSAA + FX AF:16x | |
| Aorus 15 XE5 | |
| Average of class Gaming (12.1 - 167.7, n=168, last 2 years) | |
| MSI Katana 17 B13VFK | |
| Average NVIDIA GeForce RTX 4060 Laptop GPU (76.9 - 126.3, n=47) | |
| SCHENKER XMG Fusion 15 (Mid 22) | |
| MSI Katana 15 B12VEK | |
| MSI Cyborg 15 A12VF | |
| Asus TUF Gaming A16 FA617 | |
| HP Victus 15 fa0020nr | |
为了评估帧率是否在较长的时间内基本保持不变,我们在全高清分辨率和最高质量设置下运行游戏 "TheWitcher 3"约60分钟。游戏角色没有被移动。我们没有注意到帧率的任何下降。
The Witcher 3 FPS Chart
| low | med. | high | ultra | |
|---|---|---|---|---|
| GTA V (2015) | 185.8 | 181.5 | 164.9 | 89.3 |
| The Witcher 3 (2015) | 321.6 | 235.7 | 140.7 | 77.4 |
| Dota 2 Reborn (2015) | 161.7 | 152.6 | 140 | 135.4 |
| Final Fantasy XV Benchmark (2018) | 172.8 | 105.6 | 76.9 | |
| X-Plane 11.11 (2018) | 141.3 | 120.8 | 96.8 | |
| Far Cry 5 (2018) | 168 | 116 | 109 | 102 |
| Strange Brigade (2018) | 395 | 206 | 160.5 | 137.3 |
| God of War (2022) | 57.5 | 52 | 41.8 | |
| Rainbow Six Extraction (2022) | 186 | 145 | 141 | 108 |
| Cyberpunk 2077 1.6 (2022) | 88.5 | 72.3 | 63.5 | 57.9 |
| Ghostwire Tokyo (2022) | 114.4 | 113.7 | 112.7 | 108.4 |
| F1 22 (2022) | 169.8 | 162.3 | 124.7 | 48.7 |
| The Quarry (2022) | 116.9 | 88.1 | 72.7 | 57.2 |
| Uncharted Legacy of Thieves Collection (2022) | 71.1 | 70.3 | 67.7 | 65.6 |
| Call of Duty Modern Warfare 2 2022 (2022) | 103 | 93 | 70 | 68 |
| Spider-Man Miles Morales (2022) | 89.2 | 82 | 72.5 | 66.4 |
| The Callisto Protocol (2022) | 112.8 | 82.4 | 77.8 | 54.4 |
| Need for Speed Unbound (2022) | 104.9 | 92.6 | 74.9 | 65 |
| High On Life (2023) | 163.2 | 123 | 92.1 | 71.2 |
| The Witcher 3 v4.00 (2023) | 148.6 | 117.9 | 59.2 | 50.3 |
| Dead Space Remake (2023) | 62.8 | 61 | 53.7 | 53.3 |
| Hogwarts Legacy (2023) | 108 | 87.7 | 74.2 | 62.5 |
| Returnal (2023) | 84 | 80 | 72 | 62 |
| Atomic Heart (2023) | 133.9 | 103.3 | 62.8 | 49.6 |
| Company of Heroes 3 (2023) | 152.3 | 136.9 | 101.6 | 100 |
| Sons of the Forest (2023) | 78.2 | 61.5 | 59.5 | 58.5 |
| Resident Evil 4 Remake (2023) | 106.9 | 75.9 | 69.4 | 50.9 |
| The Last of Us (2023) | 74.6 | 62.5 | 55.4 | 45.2 |
排放物 - 微星笔记本电脑的发热程度适中
噪声水平
赛博格的硬件配置是为了实现低功耗,同时也为了实现低热开发。虽然我们应该期待一个安静运行的冷却系统,但我们发现在这方面还有一些改进的空间。
平均而言,在游戏操作过程中的噪音发展在一个中等水平。然而,在峰值负载下,笔记本电脑会变得非常响亮。在 "极限性能 "模式下,最大噪音水平可以增加到56.3 dB(A)。就噪音发展而言,"平衡 "配置文件可能会推荐自己。
更令人讨厌的是在空闲操作和日常操作(办公室、互联网)中的表现:风扇在一个明显可闻的范围内持续运转,我们测量的噪音水平高达38 dB(A)。除了 "超级电池 "配置外,所有的性能配置都是如此,它经常保持风扇关闭。
微星中心允许对风扇的控制进行一些有限的访问,但只有在激活 "极致性能 "配置文件时(你必须点击齿轮符号)。自动 "和 "Cooler Boost"(风扇持续全速运行)配置文件是可用的。此外,你还可以调整风扇曲线。
Noise Level
| Idle |
| 27 / 37.5 / 38 dB(A) |
| Load |
| 56.3 / 56.3 dB(A) |
 | ||
30 dB silent 40 dB(A) audible 50 dB(A) loud |
||
min:  , med:  , max:  Earthworks M23R, Arta (15 cm distance) environment noise: 27 dB(A) | ||
| MSI Cyborg 15 A12VF NVIDIA GeForce RTX 4060 Laptop GPU, i7-12650H, Samsung PM9B1 1024GB MZVL41T0HBLB | Asus TUF Gaming A16 FA617 Radeon RX 7600S, R7 7735HS, Micron 2400 MTFDKBA1T0QFM | Aorus 15 XE5 GeForce RTX 3070 Ti Laptop GPU, i7-12700H, Gigabyte AG470S1TB-SI B10 | SCHENKER XMG Fusion 15 (Mid 22) GeForce RTX 3070 Laptop GPU, i7-11800H, Samsung SSD 980 Pro 1TB MZ-V8P1T0BW | MSI Katana 15 B12VEK NVIDIA GeForce RTX 4050 Laptop GPU, i7-12650H, Micron 2400 MTFDKBA1T0QFM | HP Victus 15 fa0020nr GeForce RTX 3050 Ti Laptop GPU, i7-12700H, Samsung PM9A1 MZVL2512HCJQ | |
|---|---|---|---|---|---|---|
| Noise | 20% | 14% | 14% | 22% | 20% | |
| off / environment * | 27 | 24 11% | 24 11% | 26 4% | 24 11% | 24.8 8% |
| Idle Minimum * | 27 | 24 11% | 26 4% | 26 4% | 24 11% | 26.2 3% |
| Idle Average * | 37.5 | 25 33% | 28 25% | 28 25% | 24 36% | 29.2 22% |
| Idle Maximum * | 38 | 28 26% | 30 21% | 31 18% | 24 37% | 29.4 23% |
| Load Average * | 56.3 | 42 25% | 48 15% | 45 20% | 37.71 33% | 29.9 47% |
| Load Maximum * | 56.3 | 50 11% | 52 8% | 48 15% | 54.55 3% | 45.5 19% |
| Witcher 3 ultra * | 50 | 52 | 46 | 45.75 | 41.1 |
* ... smaller is better
温度
在压力测试中,有三个测量点达到了最高温度(40至47.5°C,104至117.5°F),笔记本电脑充其量是中等发热。在日常操作中,温度保持在绿色范围内。
(-) The maximum temperature on the upper side is 47.5 °C / 118 F, compared to the average of 40.5 °C / 105 F, ranging from 21.2 to 68.8 °C for the class Gaming.
(+) The bottom heats up to a maximum of 35.5 °C / 96 F, compared to the average of 43.2 °C / 110 F
(+) In idle usage, the average temperature for the upper side is 25.9 °C / 79 F, compared to the device average of 33.9 °C / 93 F.
(±) Playing The Witcher 3, the average temperature for the upper side is 35.6 °C / 96 F, compared to the device average of 33.9 °C / 93 F.
(+) The palmrests and touchpad are cooler than skin temperature with a maximum of 27.8 °C / 82 F and are therefore cool to the touch.
(±) The average temperature of the palmrest area of similar devices was 28.9 °C / 84 F (+1.1 °C / 2 F).
| MSI Cyborg 15 A12VF Intel Core i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU | Asus TUF Gaming A16 FA617 AMD Ryzen 7 7735HS, AMD Radeon RX 7600S | Aorus 15 XE5 Intel Core i7-12700H, NVIDIA GeForce RTX 3070 Ti Laptop GPU | SCHENKER XMG Fusion 15 (Mid 22) Intel Core i7-11800H, NVIDIA GeForce RTX 3070 Laptop GPU | MSI Katana 15 B12VEK Intel Core i7-12650H, NVIDIA GeForce RTX 4050 Laptop GPU | HP Victus 15 fa0020nr Intel Core i7-12700H, NVIDIA GeForce RTX 3050 Ti Laptop GPU | |
|---|---|---|---|---|---|---|
| Heat | -32% | -34% | -37% | -22% | 16% | |
| Maximum Upper Side * | 47.5 | 54 -14% | 46 3% | 52 -9% | 47 1% | 37.2 22% |
| Maximum Bottom * | 35.5 | 47 -32% | 57 -61% | 63 -77% | 48 -35% | 35.4 -0% |
| Idle Upper Side * | 27.7 | 40 -44% | 38 -37% | 37 -34% | 35 -26% | 22.4 19% |
| Idle Bottom * | 29.5 | 40 -36% | 42 -42% | 38 -29% | 38 -29% | 22.6 23% |
* ... smaller is better
压力测试
压力测试(Prime95和Furmark持续运行)代表了一种极端情况,以评估系统在全负荷下的稳定性。CPU(P:3.3至3.5 GHz,E:2.8 GHz)和GPU(1,000至1,500 MHz)以中等偏高的时钟速度开始测试,在测试过程中数值不断下降。
发言人
立体声扬声器产生了体面的声音,但它几乎不包含任何低音。为了获得更好的声音体验,建议使用耳机或外部扬声器。
MSI Cyborg 15 A12VF audio analysis
(±) | speaker loudness is average but good (77.79 dB)
Bass 100 - 315 Hz
(-) | nearly no bass - on average 19.8% lower than median
(±) | linearity of bass is average (12.2% delta to prev. frequency)
Mids 400 - 2000 Hz
(+) | balanced mids - only 1.8% away from median
(+) | mids are linear (5% delta to prev. frequency)
Highs 2 - 16 kHz
(+) | balanced highs - only 4.2% away from median
(+) | highs are linear (3.9% delta to prev. frequency)
Overall 100 - 16.000 Hz
(+) | overall sound is linear (14.2% difference to median)
Compared to same class
» 24% of all tested devices in this class were better, 7% similar, 70% worse
» The best had a delta of 6%, average was 18%, worst was 132%
Compared to all devices tested
» 15% of all tested devices were better, 4% similar, 82% worse
» The best had a delta of 4%, average was 25%, worst was 134%
Asus TUF Gaming A16 FA617 audio analysis
(+) | speakers can play relatively loud (82 dB)
Bass 100 - 315 Hz
(±) | reduced bass - on average 14.4% lower than median
(±) | linearity of bass is average (8.3% delta to prev. frequency)
Mids 400 - 2000 Hz
(±) | higher mids - on average 6.5% higher than median
(+) | mids are linear (3.8% delta to prev. frequency)
Highs 2 - 16 kHz
(±) | reduced highs - on average 6% lower than median
(±) | linearity of highs is average (10.4% delta to prev. frequency)
Overall 100 - 16.000 Hz
(±) | linearity of overall sound is average (18.8% difference to median)
Compared to same class
» 60% of all tested devices in this class were better, 8% similar, 32% worse
» The best had a delta of 6%, average was 18%, worst was 132%
Compared to all devices tested
» 40% of all tested devices were better, 8% similar, 52% worse
» The best had a delta of 4%, average was 25%, worst was 134%
电源管理 - 具有良好电池寿命的游戏笔记本电脑
消耗功率
总的来说,微星笔记本电脑在耗电方面被证明是非常有效的。在整个负载范围内,其消耗量仍然低于竞争对手。在我们的Witcher 3 和压力测试中,它的耗电量相对稳定。电源的尺寸足够大,为120瓦。
| Off / Standby | 0.13 / 0.4 Watt |
| Idle | 6 / 8.8 / 11.9 Watt |
| Load |
89 / 99 Watt |
   
| |
Key:
min: ,
med: ,
max: Metrahit Energy | |
| MSI Cyborg 15 A12VF i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU, Samsung PM9B1 1024GB MZVL41T0HBLB, IPS, 1920x1080, 15.6" | Asus TUF Gaming A16 FA617 R7 7735HS, Radeon RX 7600S, Micron 2400 MTFDKBA1T0QFM, IPS-Level, 1920x1200, 16" | Aorus 15 XE5 i7-12700H, GeForce RTX 3070 Ti Laptop GPU, Gigabyte AG470S1TB-SI B10, IPS, 2560x1440, 15.6" | SCHENKER XMG Fusion 15 (Mid 22) i7-11800H, GeForce RTX 3070 Laptop GPU, Samsung SSD 980 Pro 1TB MZ-V8P1T0BW, IPS, 2560x1440, 15.6" | MSI Katana 15 B12VEK i7-12650H, NVIDIA GeForce RTX 4050 Laptop GPU, Micron 2400 MTFDKBA1T0QFM, IPS, 1920x1080, 15.6" | HP Victus 15 fa0020nr i7-12700H, GeForce RTX 3050 Ti Laptop GPU, Samsung PM9A1 MZVL2512HCJQ, IPS, 1920x1080, 15.6" | Average NVIDIA GeForce RTX 4060 Laptop GPU | Average of class Gaming | |
|---|---|---|---|---|---|---|---|---|
| Power Consumption | -42% | -222% | -84% | -30% | -40% | -73% | -107% | |
| Idle Minimum * | 6 | 8 -33% | 31 -417% | 12 -100% | 8.5 -42% | 5.1 15% | 11.6 ? -93% | 13.5 ? -125% |
| Idle Average * | 8.8 | 11 -25% | 35 -298% | 17 -93% | 10.2 -16% | 15.1 -72% | 16.1 ? -83% | 18.9 ? -115% |
| Idle Maximum * | 11.9 | 16 -34% | 46 -287% | 24 -102% | 11.3 5% | 18.9 -59% | 20.4 ? -71% | 26.7 ? -124% |
| Load Average * | 89 | 97 -9% | 120 -35% | 106 -19% | 84 6% | 114.5 -29% | 93.1 ? -5% | 106.6 ? -20% |
| Witcher 3 ultra * | 90.3 | 161.5 -79% | 202 -124% | 159.9 -77% | 128 -42% | 113.9 -26% | ||
| Load Maximum * | 99 | 168 -70% | 268 -171% | 208 -110% | 189 -91% | 165.8 -67% | 210 ? -112% | 250 ? -153% |
* ... smaller is better
Power Consumption The Witcher 3 / Stress Test
Power Consumption With External Monitor
电池寿命
在通过脚本加载网站的WLAN测试,以及循环运行短片《Big Buck Bunny》(H.264编码,FHD)的视频测试中,15.6英寸笔记本电脑的运行时间分别达到了7:32小时和8:00小时。在这两项测试中,笔记本电脑的省电功能被停用,显示亮度被降低到大约150cd/m²。为了运行视频测试,无线通信模块也被停用。
尽管微星笔记本电脑的电池容量相对较小,只有53.5Wh,但总体上提供了一个良好的电池寿命。事实上,它无法跟上 TUF Gaming A16是由于其90瓦时的大电池和AMD APU的节能组合所造成的。如果我们计算每瓦时的运行时间,赛博格领先。
| MSI Cyborg 15 A12VF i7-12650H, NVIDIA GeForce RTX 4060 Laptop GPU, 53.5 Wh | Asus TUF Gaming A16 FA617 R7 7735HS, Radeon RX 7600S, 90 Wh | Aorus 15 XE5 i7-12700H, GeForce RTX 3070 Ti Laptop GPU, 99 Wh | SCHENKER XMG Fusion 15 (Mid 22) i7-11800H, GeForce RTX 3070 Laptop GPU, 93.48 Wh | MSI Katana 15 B12VEK i7-12650H, NVIDIA GeForce RTX 4050 Laptop GPU, 53.5 Wh | HP Victus 15 fa0020nr i7-12700H, GeForce RTX 3050 Ti Laptop GPU, 70 Wh | Average of class Gaming | |
|---|---|---|---|---|---|---|---|
| Battery Runtime | 24% | -20% | -4% | -41% | -69% | -26% | |
| Reader / Idle | 817 | 1212 48% | 601 -26% | 931 14% | 155 -81% | 565 ? -31% | |
| H.264 | 480 | 371 -23% | 448 -7% | 264 -45% | 409 ? -15% | ||
| WiFi v1.3 | 452 | 724 60% | 410 -9% | 446 -1% | 260 -42% | 127 -72% | 376 ? -17% |
| Load | 140 | 90 -36% | 112 -20% | 109 -22% | 89 -36% | 65 -54% | 85.6 ? -39% |
Pros
Cons
结论 - 低功耗的游戏笔记本电脑
微星Cyborg 15的重点在于性能、移动性和功耗的妥协。由于性能设置的降低, 酷睿i7-12650H和 GeForce RTX 4060的性能低于其能力。尽管如此,即使如此,它们的计算能力仍足以在高至最高设置下进行FHD游戏。
虽然我们喜欢Cyborg 15的概念,但其实施仍有改进的余地。目前的高端GPU仍然为FHD游戏提供足够的性能,即使是在45瓦的低TGP下。
对于游戏笔记本电脑来说,这个功耗很低,可以转化为良好的电池寿命。尽管53.5瓦的电池容量相对较小,但7至8小时的现实值仍然是可能的。不幸的是,USB-C端口不提供任何对Power Delivery的支持,这对Cyborg来说是一个明智的功能。
虽然笔记本电脑不会特别热,但其最大噪音水平在笔记本电脑级别中处于通常的高水平。此外,风扇在空闲运行时仍然可以听到。我们本以为在这里会有更多的收获。这可能是放弃第二个风扇和相应的热管的代价。除了冷却系统,显示屏(FHD,144赫兹,IPS)代表了笔记本电脑的另一个弱点,亮度和色彩空间覆盖率太低。
一个替代方案可能是 华硕TUF Gaming A16 FA617.它提供了一个可比的计算性能,但得分与一个显着更长的电池寿命,更好的屏幕,和一个较低的最大噪音发展。另一方面,这款笔记本电脑在负载情况下消耗的电力明显多于Cyborg 15。
价格和可用性
MSI Cyborg 15 A12VF
- 04/09/2023 v7 (old)
Sascha Mölck
Transparency
The selection of devices to be reviewed is made by our editorial team. The test sample was provided to the author as a loan by the manufacturer or retailer for the purpose of this review. The lender had no influence on this review, nor did the manufacturer receive a copy of this review before publication. There was no obligation to publish this review. We never accept compensation or payment in return for our reviews. As an independent media company, Notebookcheck is not subjected to the authority of manufacturers, retailers or publishers.
This is how Notebookcheck is testing
Every year, Notebookcheck independently reviews hundreds of laptops and smartphones using standardized procedures to ensure that all results are comparable. We have continuously developed our test methods for around 20 years and set industry standards in the process. In our test labs, high-quality measuring equipment is utilized by experienced technicians and editors. These tests involve a multi-stage validation process. Our complex rating system is based on hundreds of well-founded measurements and benchmarks, which maintains objectivity. Further information on our test methods can be found here.
Price comparison
