Now describe how who and why launch indian own microprocessor.
India is improving day by day. India is now continuing its efforts to create all kinds of services on its own. Whether he is protected or his own know-how he continues to strive until he can now create an example of himself. India is trying to stand on its own two feet in China’s smuggling trade. india has now taken many steps to improve its know-how and the Government of India is encouraging all kinds of government and private institutions.
Of these, the IIT company in Madras is mainly.
IIT, Madras has made a name for itself by inventing a microprosser using its know-how.
That micro processor name is Shakti
What is Sakti?
SHAKTI is an open-source initiative by the Reconfigurable Intelligent Systems Engineering group at Indian Institute of Technology, Madras to develop the first indigenous indian industrial-grade processor
The aim of SHAKTI is to produce production grade processors, complete System on Chips (SoCs), development boards and SHAKTI-based software platform.
Type of shakti processor and her use?
Its same use then other microprocessor.
Mainly 2 types
1- Base Class Of Processors
2-Multicore Processors
3-Experimental Processors
1-Base class of processors use in Robotics, Mobile and computer(PC) gagets. Its divided by 3 part .
(I) E- class processor
(II) C-class processor
(III) I-class processor
2- Multicore processor are divided 3 part.
(I) M- class processor
(II) S-class processor
(III) H- class processor
3-Experimental Processors are divided in 2 types.
(I) T-class
(II) F-class
1-Base Class Of Processors
(I) E-class processor
E-class processor which is used in embedded applications, robotic controller boards, and in IoT boards. The C-class processor which is used in smartphone applications and runs at a clock frequency of 1.5 GHz. I-class processor it is a performance-oriented core which could be used in Laptop's, PC's.
(II) C-class processor
A controller class of processor, aimed at mid-range application workloads. The core is highly optimized, 5-stage in-order design with MMU support and capability to run operating systems Linux and Sel4. C-class targets compute/control applications in the 0.5-1.5 Ghz range.
(III) I-class processor
Equipped with performance oriented features like out-of-order execution, multi-threading, aggressive branch prediction, non-blocking caches and deep pipeline stages. The I-Class targets the compute, mobile, storage and networking segments. Target operating range is 1.5-2.5 Ghz.
2- MulticoreProcessor
(I) M-class processor
A mobile class processor with a maximum of 8 cores, the cores being a combination of C and I class cores.Tile-Link is used as the cache-coherent interconnect used along with transaction adapters/bridges to AXI4/AHB to connect to fast and/or slow peripherals. The TileLink topology is customizable to allow optimizations for various power/performance targets. In typical configurations, it is expected that a core complex of 2 or 4 cores will share an L2 cache. L3 caches are optional and are typically expected to be used in desktop type applications.
(II) S-class processor
Aimed at Workstation and Enterprise server workloads. The base core is an enhanced version of the I-class, with quad-core and multi-threading support. A tile-link based cache coherent mesh fabric is the interconnect of choice. Cores are expected to use dedicated L2 caches and segmented L3 caches. A maximum core count of 32 will be supported. External interconnect is expected to be Gen-Z and we are considering supporting multi-socket cache coherency based on a MOESIF style protocol running on top of Gen-Z.
(III) G-class processor
A SoC configuration aimed at highly parallel enterprise, HPC and analytics workloads. The cores can be a combination of C or I class, single thread performance driving the core choice. Optional L4 caches and an optimized memory hierarchy to achieve a high memory bandwidth. The architecture thrust is on accelerators, VPU and AI/ML and an mesh SoC fabric optimized for up to 128 cores with multiple accelerators per core. Close integration with an external Gen-Z fabric is a key part of the design, as is support for storage class memory
3- Experimental Processors
(I) T-class processor
A variant of the C-Class that explores tag based ISAs for object level security. Designed to support coarse and fine grain tags. Coarse grain tags will be used to realize micro virtual machine like functionality to mitigate software attacks like buffer-overflow.
(II) F-class processor
Fault tolerant version of the base class processor. Features include redundant compute blocks (like DMR and TMR), temporal redundancy modules to detect permanent faults, lock-step core configurations, fault localization circuits, ECC for critical memory blocks and redundant bus fabrics.
Who created Shakti?
The Shakti microprocessor is invented by IIT, Madras.
Its a open source software development. Its comon manufacturer is intel Semi-Conductor Laboratory,USA.
Shakti is a No 1 made in india microprocessor. Its clock frequency is 1.5GHz.
Shakti micro processor use in?
Its use in all laptop, computer and Mobile phone but now its use in only ISRO,india. And this processor setup in ISRO satalite.
Who and which date release Shakti processor?
why invented shakti processor in india?
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