Mali-T760 High Performance GPU

Mali-T760 Block Diagram.

About Mali-T760

The Arm Mali-T760 GPU preceded the Mali-T860 & Mali-T880 on the Midgard GPU architecture. It delivers 400% the energy efficiency of the previous generation of products. Scalable from 1-16 cores, the Mali-T760 introduces cohesive bandwidth saving technologies such as Arm Frame Buffer Compression and reduces the overall system level bandwidth and power cost of transferring spatially coordinated image data throughout the system.

Learn More

Key benefits

  • Dramatic power savings compared to previous generations.
  • Excellent execution of compute-intensive tasks such as computational photography, gesture recognition, and image stabilization.
  • Increased energy efficiency across the SoC.

Do you want more information about Arm Mali-T760?

Performance - Mali-T760 (MP16)

Feature Value Description
Frequency 650MHz in 28nm HPM
Throughput 1300Mtri/s, 10.4Gpix/s in 28nm HPM

Specification

Features Value Description
Anti-Aliasing 4xMSAA
8xMSAA
16x MSAA
Hardware implemented Full Scene Multiple Sample Anti-Aliasing.
API Support OpenGL® ES 1.2, 1.1, 2.0, 3.1, 3.2
Vulkan 1.0*
OpenCL™ 1.1, 1.2
RenderScript™
Full support for next-generation and legacy2D/3D graphics applications.
Bus Interface AMBA®4
ACE-LITE
Compatible with a wide range of bus interconnect and peripheral IP.
L2 Cache Configurable 256kB-2048kB 256kB-512kB for every 4 shader cores.
Memory System Virtual Memory Built-in Memory Management Unit (MMU) to support virtual memory.
Multi-Core Scaling 1 to 16 cores Optimized for high energy efficiency to address the high-end mobile and consumer device requirements.
Adaptive Scalable Texture Compression
(ASTC)
Low dynamic range (LDR) and high dynamic range (HDR). Supports both 2D and 3D images ASTC offers a number of advantages over existing texture compression schemes by improving image quality, reducing memory bandwidth and thus energy use.
Arm Frame Buffer Compression (AFBC) 4x4 pixel block size AFBC is a lossless image compression format that provides random access to pixel data to a 4x4 pixel block granularity. It is employed to reduce memory bandwidth both internally within the GPU and externally throughout the SoC.
Transaction Elimination 16x16 pixel block size Transaction Elimination spots the identical pixel blocks between two consecutive render targets and performs a partial update to the frame buffer with the changed pixel blocks only, which reduces memory bandwidth and thus energy.
Smart Composition 16x16 pixel block size Smart Composition extends the concept of Transaction Elimination to every stage of UI composition. Identical pixel blocks of input surfaces are not read, not processed for composition and not written to final frame buffer.
  • A desktop, a folder, 3D shapes etc.
  • Development Tools for Graphics and Compute Applications

    A range of development tools to assist in the deployment of graphics applications and content on Mali GPU based systems.

    Learn more
  • A phone, a tablet, game console etc.
  • Mali Developer Center

    An online portal for a growing community of developers, technology partners, software vendors and content companies to create a thriving community around Mali embedded graphics IP.

    Learn more

Get Support

Answered Where do I find presentations and photos from SC'18? 0 votes 273 views 0 replies Started 1 months ago by John Linford Answer this
Discussion Please consider my tag for inclusion on the ARM Community 0 votes 15937 views 25 replies Latest 14 days ago by SULMIYATDAD Answer this
Discussion 嵌入式Linux下双网口Socket编程 0 votes 20 views 0 replies Started 13 hours ago by 利尔达徐佳丽 Answer this
Discussion ARM Cortex-A9工业级核心板及其产品应用 0 votes 20 views 0 replies Started 13 hours ago by 利尔达徐佳丽 Answer this
Suggested answer Using GICv2 with FVP
  • gicv2
  • Fixed Virtual Platforms (FVPs)
0 votes 88 views 1 replies Latest yesterday by Jason Andrews Answer this
Not answered AXI4 Burst Transactions
  • AXI
  • AXI4
0 votes 22 views 0 replies Started yesterday by surajrgupta Answer this
Suggested answer Store operations where the cache line is already cached (ACE protocol)
  • AMBA 4
1 votes 86 views 1 replies Latest 2 days ago by a.surati Answer this
Suggested answer Cross-Compile ArmNN on x86_64 for arm64 0 votes 346 views 7 replies Latest 2 days ago by Jason Andrews Answer this
Suggested answer x 0 votes 153 views 2 replies Latest 3 days ago by Peter Harris Answer this
Discussion 利尔达AM3354核心板 Linux3.2.0 内核增加TSC2007驱动方法 0 votes 43 views 0 replies Started 3 days ago by 利尔达徐佳丽 Answer this
Discussion i.MX6平台CSI接口的电压选择 0 votes 37 views 0 replies Started 3 days ago by 利尔达徐佳丽 Answer this
Discussion NB-IoT:模组注册成功但长期挂测时电池没电
  • Narrowband IoT (NB-IoT)
0 votes 30 views 0 replies Started 3 days ago by 利尔达徐佳丽 Answer this
Answered Where do I find presentations and photos from SC'18? Started 1 months ago by John Linford 0 replies 273 views
Discussion Please consider my tag for inclusion on the ARM Community Latest 14 days ago by SULMIYATDAD 25 replies 15937 views
Discussion 嵌入式Linux下双网口Socket编程 Started 13 hours ago by 利尔达徐佳丽 0 replies 20 views
Discussion ARM Cortex-A9工业级核心板及其产品应用 Started 13 hours ago by 利尔达徐佳丽 0 replies 20 views
Suggested answer Using GICv2 with FVP Latest yesterday by Jason Andrews 1 replies 88 views
Not answered AXI4 Burst Transactions Started yesterday by surajrgupta 0 replies 22 views
Suggested answer Store operations where the cache line is already cached (ACE protocol) Latest 2 days ago by a.surati 1 replies 86 views
Suggested answer Cross-Compile ArmNN on x86_64 for arm64 Latest 2 days ago by Jason Andrews 7 replies 346 views
Suggested answer x Latest 3 days ago by Peter Harris 2 replies 153 views
Discussion 利尔达AM3354核心板 Linux3.2.0 内核增加TSC2007驱动方法 Started 3 days ago by 利尔达徐佳丽 0 replies 43 views
Discussion i.MX6平台CSI接口的电压选择 Started 3 days ago by 利尔达徐佳丽 0 replies 37 views
Discussion NB-IoT:模组注册成功但长期挂测时电池没电 Started 3 days ago by 利尔达徐佳丽 0 replies 30 views