Intel Describes Low Power, High Performance Future for Processor Technology
SAN JOSE, Calif.--(BUSINESS WIRE)--Oct. 15, 2001--Intel Corporation today outlined new processor and system design trends that will improve the overall computing experience of users in the future. These include optimizing chip power consumption and embracing new ``parallel'' processor design techniques.
Justin Rattner, Intel Fellow and director of the company's Microprocessor Research Lab, opened the Microprocessor Forum here by saying that power efficient designs are ushering-in a new era of ``ultra dense'' servers, longer-lasting mobile PCs and more stylish and easy-to-use desktop PCs. These technologies are emerging, he said, because designers are now balancing power with performance when designing new products.
``The art of system design has changed,'' Rattner said. ``As first described at last February's International Solid State Circuits Conference, Intel is now prioritizing power consumption, reliability, functionality and connectivity with speed. We're designing for the total computing experience, and that's bringing new innovations to the table.''
Rattner also said that Intel is leading the chip industry into a new era of ``thread level parallelism,'' where single processors are starting to manage data as if two real processors were present, which improves throughput and system response time. Intel's future Hyper-Threading technology, based on a thread-level design, is due in the Intel® Xeon(TM) processor for servers in the first half of 2002. Intel's advanced design philosophy also has the company on track to deliver multi-core, multi-threaded processors within the next few years.
Additional Intel Microprocessor Forum Presentations
In subsequent addresses at the forum, Intel provided future details on mobile, enterprise and communications technologies.
Bob Jackson, principal engineer of the Intel Mobile Platforms Group, described upcoming mobile Intel® Pentium® 4 processors, saying that they will include special low power mobile technologies such as enhanced SpeedStep technology and Deeper Sleep alert states for extended battery life. He also discussed the ``Banias'' design for mobile processors due in 2003, saying that it will be able to turn off parts of the processor that are not being used to save power and will bundle instructions for faster execution.
Intel Fellow Glenn Hinton provided an architectural update on Hyper-Threading technology, saying that it ``threads'' data instructions in parallel streams by duplicating architectural registers within the processor circuitry. John Shen, director of Intel's Microarchitecture Research Lab, co-presented with Hinton and provided additional details on multi-threading processor design.
Separately, Intel announced a new technology that will enable the company to deliver the industry's first fully programmable network processors capable of performing at wire speeds exceeding 10 gigabits per second. Intel Fellow Matt Adiletta will further discuss the technology in a presentation on Thursday.
On Tuesday, Dr. Dileep Bhandarkar, director of Intel's Enterprise Architecture Labs, will disclose a new processor code-named ``Nocona,'' a future member of the Xeon processor server family due in 2003. He also said that the Xeon processor for servers is expected to reach 1.6 GHz or above in the first half of 2002, and that upcoming 64-bit McKinley-based systems are expected to deliver an integer performance increase of up to 1.7 times greater than today's Intel® Itanium(TM)-based systems.
Intel, the world's largest chip maker, is also a leading manufacturer of computer, networking and communications products. Additional information about Intel is available at www.intel.com/pressroom.
Note to Editors: Intel, Pentium, Xeon and Itanium are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries. |
