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Ward off espionage :India to design a home-grown microprocessor

Mig-29

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NEW DELHI: The chips may have been down at India’s computer hardware sector for some time now, but an ambitious government programme is looking to change that. Top scientists at some of the country’s ace scientific institutions are pooling energies, and the government some money, in an attempt to design a home-grown microprocessor, which they hope will ward off the rising threat of espionage into strategic segments like defence, telecom and space.

The project to make the India Microprocessor, as it is being tentatively called, will see scientists from the Bhabha Atomic Research Centre (BARC), Centre for Development of Advanced Computing (C-DAC), Indian Space Research Organisation (ISRO), Centre for Scientific and Industrial Research (CSIR), and IIT Delhi coming together under the aegis of the department of IT.

An entity, to be called Zerone Corporation for now and with an initial investment of $200 million, will carry out the project, according to a government official involved in the process. A draft proposal in this regard is likely to be presented to the cabinet soon requesting funds, the official said on condition of anonymity.

Zerone, which will start operations from the facilities of a government-owned company, is also expected to give a leg up to India’s struggling semiconductor industry.

Demand for microchips from India’s booming technology sector is expected to touch $315 billion by 2015, but a semiconductor policy of previous years to encourage firms to manufacture them locally evoked little interest from the private sector.

However, the current plan has national security as the first priority, especially after reports of a global network of Chinese hackers breaking into sensitive installations worldwide, including the headquarters of Dalai Lama in Dharamshala and telecom networks in the UK. Just a week ago, South Korea had complained of an organised effort by North Korea to hack its government network.

The government document, a copy of which is with ET, presents several such scenarios. If the Indian Army's WAN (Wide Area Network) is cut off from other networks, hypothetically the army’s equipment can still be activated wirelessly by foreign parties to transfer information or compromise it, the document says.

“Unless India has its own microprocessor, we can never ensure that networks (that require microprocessors) such as telecom, Army WAN, and microprocessors used in BARC, ISRO, in aircraft such as Tejas, battle tanks and radars are not compromised,” the document points out.

It further cites recent UK reports that have raised concerns over importing a Chinese telecom major’s equipment for use in Britain’s telecom network, which may lead to espionage or a shut down during a war.

A consultative process is already on to decide the chip architecture and finalise the final name of the corporation along with other modalities. The revenue source of Zerone is likely to be from the sales and support of microprocessors and by providing training on the advanced technological architecture.

The India Microprocessor is likely to adopt Sun Microsystem’s Open Sparc open source chip design technology, along with Linux operating system and MySQL database software.


The chip could also help India develop a low-cost mobile phone, worth say just Rs 500, high-tech defence precision systems and a host of other applications in areas including healthcare and weather forecasting.

“Apart from defence sector, it will be a shot in the arm for the $10-billion IT hardware industry, if the government is successful in its move,” said Vinnie Mehta, executive director of hardware industry body MAIT, who was present at a recent meeting on the issue.

The meeting was presided by Prithviraj Chauhan, minister for science and technology, a week after the new government took charge.

“Whether the technology from foreign companies will continue to be available in future is uncertain. Basic research for an India microprocessor has been going on with a small team,” said an official with CSIR, who didn’t want to be named. He added that to make a microprocessor with complementary hardware, India would need a team of over 400 people.

The director-general of CSIR, Prof Brahmachari, a key player in this project, was unavailable for comment for this story.

According to Ramkumar Subramaniam, vice-president for sales & marketing at AMD India, private companies would like to work with the government on this. “A similar partnership was forged by AMD with the Chinese government for licensing key x86 microprocessor technology that helped them develop embedded computer solutions,” he said.

Poornima Shenoy, president of Indian Semiconductor Association, said the outsourced chip design industry in India was about $8 billion currently, and most of the intellectual property rests with companies based overseas.

“History has shown that the need for defence security has sparked a chip industry in most nations,” she said.
Unlike the US and China, India still does not have chip-making technology, and Zerone seeks to change that.

Initially, the land and building would be provided by the government while the company will be 80% owned by the government and 20% by employees. However, the fabrication of chips will be outsourced to a private foundry overseas, as India still does not have one.

Over the next two years, the stake is proposed to be relaxed to 49% for government, with 31% to be held by private IT hardware companies and the corporation’s strategic domestic customers. The proposed company is expected to hire only Indian nationals to work on the project.

IntelliBriefs
 
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I don't really know how reliable that source is...but if it is true then "Woohoo"
Good for India!
 
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Well the report is authentic enough , this has been going on for quite some time if you remember recently chidambaram commented that Indian IT leadership should be reflected in the defense sector as well.
 
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yea if true good for india, but its gonna be tough to have it succeed
in china the government is behind its chipset industrial the all powerful government can dictate people to buy the product.
but yes a chipset industrial will be very good for india IT future
 
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Advanced Neumarical Research and Analysis Group (ANURAG)

Advanced Numerical Research and Analysis Group (ANURAG) is a laboratory of the Defence Research and Development Organisation (DRDO). Located in Kanchanbagh, Hyderabad, it is involved in the development of computing solutions for numerical analysis and their use in other DRDO projects.ANURAG was established on May 2, 1988, to support aeronautical design work, with the mandate of executing specific, time-bound projects leading to the development of custom designed computing systems and software packages for numerical analysis and other applications.

Microprocessor Design and Development.

ANURAG has designed and developed general-purpose microprocessors- ANUPAMA and ABACUS. ANUPAMA is a 32-bit RISC processor, and works at 33 MHz clock speed. The complete software development tool kit is available for application development. A single-board computer based on ANUPAMA is available for evaluation and software development. ANUPAMA is also available as an IP core.

ABACUS is a 32-bit processor for multi-tasking applications with virtual memory support. It is designed around ANUPAMA core with additions like MMU, two levels of cache, double precision FPU, SDRAM controller. The IP core of ABACUS is available in Verilog RTL code. This processor is suited for desktop applications. Complete software platform is available for ABACUS processor and a single board computer with ABACUS is implemented. Linux Kernel is ported.

Areas of work

ANURAG helps design and develop advanced computing systems. Much of this research is conducted in state-of-the art concepts like parallel architectures, etc, in order to build up a technology base in these areas. Its areas of work are:

1. Parallel processing technology.
2. System engineering, integration.
3. General purpose microprocessors.
4. 1 micrometre CMOS fabrication technology.
5. Design and development of VLSI chips & SOC development.
6. Processor related technology.
7. System software development for custom made processors


Products

PACE (Processor for Aerodynamic Computations and Evaluation), developed by ANURAG, is a loosely coupled, message-passing parallel processing supercomputer. PACE was originally designed to cater to the Computational fluid dynamics (CFD) needs in aircraft design. It can also be used for other fields such as weather forecasting, automobile & civil engineering design and Molecular Biology. These systems have been built using VME-bus based Pentium processor boards, ATM switches and Reflective Memory communication hardware.

In 1987, India decided to launch a national initiative in supercomputing to design, develop and deliver a supercomputer in the gigaflops range. Complementary projects were initiated in various labs, ANURAG being one of them. PACE was unveiled by then Prime Minister P.V. Narasimha Rao in April 1995.

In late 1998, ANURAG developed the 15 times more powerful "Pace Plus 32", which can be used to support missile development, as well as other fields. A 128-node PACE++ system, built using Pentium processor based VME boards was unveiled by Dr. A.P.J. Abdul Kalam in January 2004. The performance of this system is 50 Gigaflops (sustained performance). It has been installed at the Indian Institute of Science, Bangalore. At present work is in progress on parallel processing system based on Linux clusters targeted to deliver 1 teraflop performance.

ANAMICA
ANAMICA (ANURAG's Medical Imaging and Characterization Aid) is a DICOM compliant three-dimensional medical visualization software for data obtained from any medical imaging system like MRI, CT and Ultrasound. The software has two-dimensional and three-dimensional visualisation techniques to visualize the images in various ways. The sequence of images obtained from any imaging system by scanning of a single patient is packed to form a three-dimensional grid. The software has also been modified for accepting data from Industrial CT systems.

General purpose microprocessors

ANURAG has designed and developed general-purpose microprocessors- ANUPAMA and ABACUS. ANUPAMA is a 32-bit RISC processor, and works at 33 MHz clock speed. The complete software development tool kit is available for application development. A single-board computer based on ANUPAMA is available for evaluation and software development. ANUPAMA is also available as an IP core.

ABACUS is a 32-bit processor for multi-tasking applications with virtual memory support. It is designed around ANUPAMA core with additions like MMU, two levels of cache, double precision FPU, SDRAM controller. The IP core of ABACUS is available in Verilog RTL code. This processor is suited for desktop applications. Complete software platform is available for ABACUS processor and a single board computer with ABACUS is implemented. Linux Kernel is ported.


Other technologies

ANURAG has designed a 16-bit DSP processor, which is available as an IP core and the design is packaged in 120-pin CPGA. It has also designed other processors and arithmetic cores. ANURAG has also been able to fabricate CMOS designs up to 1 micrometre size and with up to 100,000 gates. Die sizes of 14 x 14 mm have been achieved.
 
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Now what i am made to believe is that the Chinese attacks starts with a Denial of Distribution service. (DDOS)
So how exactly is this chip to stop a DDOS ?
 
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What about this denial of distribution service , would you elaborate.
I am not a hacker but i will give you my limited knowledge on DDOS
Internet servers has drawn considerable attention. These attacks typically flood a network or server with bogus requests, rendering it unavailable to handle legitimate requests.

So what happens that the server is so busy completing the requests of fake nature that it denies you (the legitimate user) access to the data you seek.
Of course you need a a big bot net to launch a DDoS of that scale,which the chinese seem to have.

What I am asking you is how will the chip prevent DDoS?
 
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I am not a hacker but i will give you my limited knowledge on DDOS


So what happens that the server is so busy completing the requests of fake nature that it denies you (the legitimate user) access to the data you seek.
Of course you need a a big bot net to launch a DDoS of that scale,which the chinese seem to have.

What I am asking you is how will the chip prevent DDoS?

My thoughts exactly. DDoS attacks are through the network. Hacking is done through the network. If you want to prevent hacking, you need a strong multi-layered firewall. A CPU doesn't have anything to do with it.

Few other thoughts, why a 32-bit processor when the advanced ones today are 64-bit. In fact, I'm typing this from a computer running a 64-bit AMD64 architecture. Also, what ISA is it going to use? If it is the open x86 ISA, then the licensing costs from Intel and AMD are going to be exorbitant. If not, who's going to write the software packages to address it? In the latter case, linux can be adapted but then every single software package has to be reconfigured and recompiled. Is it worth it? Why not give money to AMD or Intel to start a fab in India?

edit:
PS: It's Distributed Denial-of-service, not the other way around.
 
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Blocking a DDoS is not complicated esp if it comes from China.
All you need to do is put a filter to all the Chinese IP address.

The trouble is when you are hacked and some one places a worm in your network infrastructure, for example in the processor or the NIC.

And I think this is where the chip comes to use.

This has really stopped making sense to me :p
 
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it is not as easy as blocking an IP mate. There are ways to create bogus IPs which seem to come from friendly places! Even phone calls made from a certain IP can be made to look like they are coming from somewhere else.

The idea of a home grown processor is possibly to also enhance the know how of the defence sector with the technological advancements of the private sector
 
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Come on, even MAC addresses can be spoofed so what is there in IP addresses.
The problem in DDOS are the BOTS . I don't know how having our own chip will save us from DDOS , but still it is a good news for us.:cheers:
Thanks
 
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I some how get the feeling the chips we currently use ... Intel AMD etc are not secure and can be exploited in event of a war...May be they can act as a torjan horse in event of a when ever needed.

This is why GOI is making its own chips to be installed and used so that it is safe from exploits and it will give Indians a jump start in the semiconductor area and make a move towards India becoming a semiconductor manufacturing hub .

I think so.
 
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