Game Bottleneck Calculator

Core i9-7980XE and TITAN Xp - Battlefield V - 1920 × 1080 (FHD (1080p))

Bottleneck calculation for Intel Core i9-7980XE and NVIDIA TITAN Xp with screen resolution of 1920 × 1080 pixels for Battlefield V.

Configuration

Intel Core i9-7980XE is processor manufactured by Intel and launched in Q2 2017 . It's using FCLGA2066 socket. It has 18 cores and 36 threads with clock of 2.6 GHz that can turbo clock itself to 4.2 GHz . This processor is used in Desktop devices and can consume up to 165 watts of power .

Intel Core i9-7980XE logo

Core i9-7980XE


Cores 18
Threads 36
Thermal Design Power (TDP) 165 W
User Score 37625

NVIDIA TITAN Xp is graphic card manufactured by NVIDIA and launched in Q2 2017 . It's using PCIe 3.0 x16 bus type. It has core clock of 1405 MHz and 12288 MB (12GB) of memory . It supports DirectX 12 and OpenGL 4.5 . This graphic card is used in Desktop devices and can consume up to 250 watts of power .

NVIDIA TITAN Xp logo

TITAN Xp

DirectX 12
OpenGL 4.5
Thermal Design Power (TDP) 250 W
User Score 58226

Calculator result

NVIDIA TITAN Xp is too weak for Intel Core i9-7980XE on 1920 × 1080 pixels screen resolution for Battlefield V.

This configuration has 10.8% of graphic card bottleneck .

When playing games your processor won't perform on maximum possible performances (won't be utilized to the maximum), because you graphic card cannot handle delivered data fast enough. This theoretically means that utilization of you graphic card will be on maximum and the potencial of processor will not be completely used.

Bottleneck calculation for Intel Core i9-7980XE and NVIDIA TITAN Xp with screen resolution of 1920 × 1080 (FHD (1080p)) pixels for Battlefield V)

Component utilizations

While playing Battlefield V game, processor Intel Core i9-7980XE will be utilized 89.2% and graphic card NVIDIA TITAN Xp will be utilized 100.0% .

Utilization of Intel Core i9-7980XE and NVIDIA TITAN Xp in Battlefield V with 1920 × 1080 (FHD (1080p)) resolution)

Graphic card bottleneck is better, than processor bottleneck, because utilization of your graphic card will be on maximum and you will experience maximal performances that your graphic card offers. Also your processor can handle some other programs in background because it won't be maximally utilized.

Solutions

You can resolve this by upgrading your graphic card or by downgrading your processor. Downgrading your processor doesn't make much sense and in that case is better to leave current processor in you computer, because you can run more background task that won't interupt your gaming experience.

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