Resolved: Computer system optimized for Fortnite gameplay.
Resolved: Computer system optimized for Fortnite gameplay.
This computer is suitable for playing Fortnite at a frame rate of 144fps with settings adjusted for lower resolution and a 4:3 aspect ratio. I’m considering purchasing a 144Hz monitor as well—would that be a worthwhile investment? Thank you for your insightful reviews.
Processor: AMD Ryzen 5 2600 with six cores and a clock speed of 3.4GHz, boosting up to 3.9GHz, featuring 19MB of cache.
Motherboard: Micro-ATX MSI B450M PRO-VDH.
Graphics Card: MSI GeForce GTX 1060 with 6GB of VRAM.
Memory: G.SKILL Aegis 8GB (2x4GB) DDR4-2400MHz CL15.
Solid State Drive: SSD M.2 2242 Toshiba RC100 240GB 3D TLC NVMe (RC100-M22242-240G).
Hard Drive: Planned for later (1TB capacity).
Power Supply: Seasonic S12II 620W.
You can choose a display that supports G-Sync.
This feature enables the screen to dynamically adjust and maintain synchronization with your graphics card,
regardless of the frame rate between 30 and 90 frames per second.
Alternatively, you could select a monitor designed for media consumption and picture quality, which typically offer enhanced capabilities—for instance, I can operate mine at 10-bit (color) at 60Hz or 8-bit at 75Hz.
This is generally the color depth your software and games usually output.
Furthermore, with programs such as NVProfile Tweaker or Afterburner RTSS, you can restrict the maximum frame rate for games, preventing your GPU from operating at full capacity constantly.
This approach allows me to run various games at different frame rates (e.g., shooters at 75 fps, racing sims at 60 fps).
What's the rationale behind requiring a higher refresh rate display?
It would redistribute processing demands from the graphics card to the central processor, and while it might slightly delay responsiveness outside of competitive gaming environments, it would primarily affect input lag.
Considering the number of individuals claiming to “require” 144Hz compared to those with genuine needs, I’m curious about the underlying reasons.
For storage, I find the MX500 from Crucial/WD Black/970 Evo suitable for NVMe drives, and the 860 Evo is a good option for traditional 2.5-inch drives.
Seasonic produces reliable power supplies, but an EVGA unit is generally considered superior—specifically the G2 or G3 series.
If possible, holding out for the 2060 would be beneficial, as it should offer performance comparable to a 1070/Ti and feature 8GB of VRAM, increasing its longevity in terms of future game compatibility.
Why is an increased refresh rate of 144Hz necessary? It would redistribute processing load from the graphics card to the central processor, and while it might slightly reduce input delay for competitive gaming, it wouldn’t substantially affect performance. Observing how many people claim they require 144Hz compared to those who genuinely benefit from it, I’m curious about the reasoning behind these statements.
Regarding storage drives, I find the MX500 from Crucial/WD Black/970 Evo suitable for NVMe, and the 860 Evo is a solid option for traditional 2.5-inch drives. Seasonic produces reliable power supplies, although EVGA units are generally superior; the G2/G3 series is a recommended choice.
If possible, holding out for the 2060 would be beneficial, as it could deliver performance comparable to a 1070/Ti and include 8GB of video memory, making it more adaptable to upcoming games. Considering this reassessment, I believe 75Hz would be adequate for my needs – I don’t intend to purchase a 60Hz monitor.
You can select a display that supports G-Sync. This feature enables the screen to dynamically adjust and consistently synchronize with your graphics card, regardless of frame rate between 30 and 90 frames per second. Alternatively, you could choose a monitor designed for content creation or image quality, which typically offers enhanced capabilities such as the ability to operate at 10-bit color @ 60Hz or 8-bit color @ 75Hz – which is often the standard for most applications and games. Furthermore, using tools like NVProfile Tweaker or Afterburner RTSS allows you to restrict maximum frame rates within games, preventing your GPU from constantly running at its highest possible setting. This lets you achieve varied frame rates for different games, such as 75fps for shooters and 60fps for racing simulations.