Mali-T760 Image (View Larger Mali-T760 Image)
The ARM® Mali™-T760 GPU boosts the Midgard architecture into a new era of energy efficiency. Enhancements to the silicon-proven Midgard architecture ensure that the ARM Mali-T760 is the GPU of choice for all market-leading smartphones, tablets and DTVs. With full support for current and next generation graphics and compute APIs, it boasts stunning graphics and guarantees the excellent execution of compute-intensive tasks such as computational photography, gesture recognition and image stabilization.

With 400% the energy efficiency of the ARM Mali-T604 GPU, the ARM Mali-T760 GPU promises to deliver stunning graphics quality without compromising on power consumption. An advanced, coherent L2 Cache Interconnect ensures that the ARM Mali-T760 GPU can scale effectively to its full 16 cores, maximizing its performance potential and simplifying the GPU’s physical implementation effort. Compatibility with additional power-saving technologies reduces overall System on Chip (SoC) power. For example, ARM Frame Buffer Compression (AFBC) reduces the overall system level bandwidth and power cost of transferring spatially coordinated image data throughout the system by up to 50%. Smart Composition can also reduce texture read bandwidth and SoC power by up to 50% .

The ARM Mali-T760 GPU offers full support for current and next generation APIs, enabling advanced 3D graphics acceleration. It is Khronos compliant* for OpenGL® ES 3.1/3.0/2.0/1.1 and Microsoft Windows compliant for Direct3D® 11.1.

The ARM Mali-T760 GPU is supported by the proven software development assets of the Mali GPU DDK, which is provided under the standard ARM commercial licence to all Mali GPU customers. In addition, ARM POP™ IP for the Mali-T760 will be made available to further decrease time to market and improve the dependability of your product. ARM POP IP is core-hardening acceleration technology for producing the best ARM processor implementations in the fastest time to market with the flexibility to optimize for maximum performance, lowest power, or any combination in between.

*Product is based on a published Khronos Specification, and is expected to pass the Khronos Conformance Testing Process. Current conformance status can be found at www.khronos.org/conformance.

Mali-T760 MP16

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

Feature Value Description
Anti-Aliasing 4xFSAA
16x MSAA
Hardware implemented Full Scene and Multiple Sample Anti-Aliasing
API Support OpenGL® ES 1.1, 2.0, 3.0, 3.1
OpenCL™ 1.1,
DirectX® 11,
Full support for next-generation and legacy2D/3D graphics applications
Bus Interface AMBA®4
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
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

Mali Developer Resources
The Mali Developer Center provides a wide range of third party development tools, middleware and existing demonstration applications to assist in the deployment of graphics applications and content on Mali GPU based systems. http://malideveloper.arm.com/develop-for-mali/tools/
Performance Analysis and Debug
Software Development
Processor IP
Cortex-A7 The ARM Cortex-A7 MPCore processor is the most efficient application processor ARM has ever developed and dramatically extends ARM's low-power leadership in future entry level smart phones, tablets and other advanced mobile devices.
Cortex-A8 The ARM Cortex-A8 processor has the ability to scale in speed from 600MHz to greater than 1GHz, meeting the requirements for power-optimized mobile devices needing operation in less than 300mW and performance-optimized consumer applications requiring 2000 Dhrystone MIPS.
Cortex-A9 Available as either a single core or configurable multicore processor, the Cortex-A9 processor can scale across a wide variety of applications, making it an ideal solution for designs requiring high performance in low power or thermally constrained cost-sensitive devices.
Cortex-A15 The Cortex-A15 MPCore processor delivers a 5x performance improvement over today's advanced smartphone processors, within a comparable energy footprint.
Cortex-A57 / Cortex-A53 The Cortex-A57 and Cortex-A53 processors are the first processors to be based on the ARMv8 architecture extending the performance of 32-bit processing and introducing the world's most energy-efficient 64-bit technology.
System IP
System IP provides the interconnect and peripheral components that enable Mali-T760 to deliver its full performance potential within energy efficient SoC designs.
AMBA AXI Interconnect and Peripherals System IP generators, level-2 cache control, memory controllers and peripherals compatible with the AMBA AXI standard.
Physical IP
Physical IP Platforms deliver process optimized IP, for best-in-class implementations of the Mali-T760 graphics processor.
Standard Cell Logic Libraries Available in a variety of different architectures ARM Standard Cell Libraries support a wide performance range for all types of SoC designs. Designers can choose between different libraries and optimize their designs for speed, power and/or area.
Memory Compilers and Registers A broad array of silicon proven SRAM, Register File and ROM memory compilers for all types of SoC designs ranging from performance critical to cost sensitive and low power applications.
Interface Libraries A broad portfolio of silicon-proven Interface IP designed to meet varying system architectures and standards. General Purpose I/O, Specialty I/O, High Speed DDR and Serial Interfaces are optimized to deliver high data throughput performance with low pin counts.

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Visit the ARM 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. Members can benefit from a wealth of information though the forum and can access a range of materials including tools, sample code, development boards, drivers and documentation.

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Mali-T760 related blogs, discussions, technical content



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