Compare Razer Blade 14″ (RZ09-01952W31-R3W1) vs other laptops

Razer Blade 14″ (RZ09-01952W31-R3W1)

Compare Razer Blade 14″ vs other touchscreen laptops:

Compare Razer Blade 14″ (RZ09-01952W31-R3W1) vs HP Pavilion 15″ (15-eh0009na)
HP Pavilion 15″
15-eh0009na
£651.34
Compare Razer Blade 14″ (RZ09-01952W31-R3W1) vs ASUS C234MA-BU0600 11″
ASUS C234MA-BU0600 11″
Intel Celeron N4020
£329.99
£209.99
Compare Razer Blade 14″ (RZ09-01952W31-R3W1) vs ASUS UX363JA-EM120T 13″ (203716A1)
ASUS UX363JA-EM120T 13″
203716A1
£699.99
£599.99
Razer Blade 14″ (RZ09-01952W31-R3W1) technical specifications

Razer Blade 14″ (RZ09-01952W31-R3W1)

Specifications

Razer Blade 14″ (RZ09-01952W31-R3W1)
Processor (CPU)?Central Processing Unit is the heart of a laptop and is responsible for executing programs.
Intel Core i7-6700HQ
Memory (RAM)?Memory increases the general speed of a laptop.
16gb
Graphics card (GPU)?Graphics Processing Unit calculates 3D graphics and is essential for gaming and heavy programs.
GeForce GTX 1060
Screen size
14″
Screen resolution
Quad HD (2560 x 1440 pixels)
Weight
1.93 kg
Operating system (OS)
Windows 10
Hard drives
250gb SSD

Amazon.co.uk description

Razer Blade RZ09-01952W31-R3W1 14-Inch QHD Gaming Laptop - (Black) (Intel Core i7-6700HQ, 16 GB DDR4 RAM, 256 GB SSD, NVIDIA GeForce GTX 1060, Windows 10)

The new Razer Blade with 256GB SSD, QHD (3200x1800) IGZO-Touchscreen Display, VR-Ready, GeForce GTX 1060, 16GB DDR4 RAM, Intel Core i7-6700HQ up to 3,5GHz, Thunderbolt 3 and Razer Chroma RGB Lighting

VR-Ready NVIDIA GeForce GTX 1060 GPU, powered by the ultra-fast, power-efficient NVIDIA Pascal GPU architecture.

The advanced GeForce GTX 1060 GPU is created with high-speed FinFET technology and supports DirectX 12 features

The spectacular 14” QHD+ display pumps out 5.76 million pixels at 262 pixels per inch, so you get breathtaking clarity, hyper-realistic sharpness, and jaw-dropping colour intensity

The ultra-portable Razer Blade features 16GB of fast dual-channel DDR4 2133MHz memory and up to 1TB PCIe solid-state storage