Intel® Multi-Core Processor Achitecture Development Backgrounder
In the October 1989 issue of IEEE Spectrum, an article title "Microprocessors Circa 2000" predicted that multi-core processors could come to market soon after the turn of the century. This paper was the work of four Intel Corporation technologists, including Pat Gelsinger, vice president and general manager of the Digital Enterprise Group, who envisioned the future through the lens of Moore’s Law.
In the October 1989 issue of IEEE Spectrum, an article title "Microprocessors Circa 2000" predicted that multi-core processors could come to market soon after the turn of the century. This paper was the work of four Intel Corporation technologists, including Pat Gelsinger, vice president and general manager of the Digital Enterprise Group, who envisioned the future through the lens of Moore’s Law. Fifteen years later, their predictions are proving true and multi-core processors capability development has become one of the top business and product initiatives for Intel.
Intel continues to focus its near- and long-term efforts on enhancing the overall computing platform to deliver greater value and functionality to personal computer (PC) users. About three years ago Intel sharpened its continued focus on platform-level improvements and began providing fundamental technologies and features in a move to bring more benefits to users. The Intel vision of a balanced platform is moving behond gigahertz (GHz) and expanding the company’s focus on the fundamental technologies and features for delivering greater value and functionality. Intel has realigned its strategy and moved resources away from pure GHz-oriented projects-the result is the company embracing multi-core architecture. Intel also continued to invest in its manufacturing capacity during the 2000 economic downturn to ensure that it has the capacity to deliver processors, including multi-core processors, in high volume and at affordable price points.
Multi-core processor capability is central to the Intel platform-centric approach. By enabling enhanced performance, reduced power consumption and more efficient simultaneous processing of multiple tasks, multi-core processors promise to improve the user experience in home and business environments.
Understanding Multi-Core Processor Architecture
Explained most simply, multi-core processor architecture entails silicon design engineers placing two or more Intel® Pentium® processor-based "execution cores" or computational engines, within a single processor. This multi-core processor plugs directly into a single processor socket, but the operating system perceives each of its execution cores as a discrete logical processor with all the associated execution resources.
To read more, click link below to subscribe to Intel® Software Dispatch and begin receiving Intel® Software Insight, a quarterly e-zine focused on the topics software-industry leaders care about. Once you subscribe, you will be able to download the pdf continue reading Intel® Multi-Core Processor Achitecture Development Backgrounder.
To read complete article, click download below.
In the October 1989 issue of IEEE Spectrum, an article title "Microprocessors Circa 2000" predicted that multi-core processors could come to market soon after the turn of the century. This paper was the work of four Intel Corporation technologists, including Pat Gelsinger, vice president and general manager of the Digital Enterprise Group, who envisioned the future through the lens of Moore’s Law. Fifteen years later, their predictions are proving true and multi-core processors capability development has become one of the top business and product initiatives for Intel.
Intel continues to focus its near- and long-term efforts on enhancing the overall computing platform to deliver greater value and functionality to personal computer (PC) users. About three years ago Intel sharpened its continued focus on platform-level improvements and began providing fundamental technologies and features in a move to bring more benefits to users. The Intel vision of a balanced platform is moving behond gigahertz (GHz) and expanding the company’s focus on the fundamental technologies and features for delivering greater value and functionality. Intel has realigned its strategy and moved resources away from pure GHz-oriented projects-the result is the company embracing multi-core architecture. Intel also continued to invest in its manufacturing capacity during the 2000 economic downturn to ensure that it has the capacity to deliver processors, including multi-core processors, in high volume and at affordable price points.
Multi-core processor capability is central to the Intel platform-centric approach. By enabling enhanced performance, reduced power consumption and more efficient simultaneous processing of multiple tasks, multi-core processors promise to improve the user experience in home and business environments.
Understanding Multi-Core Processor Architecture
Explained most simply, multi-core processor architecture entails silicon design engineers placing two or more Intel® Pentium® processor-based "execution cores" or computational engines, within a single processor. This multi-core processor plugs directly into a single processor socket, but the operating system perceives each of its execution cores as a discrete logical processor with all the associated execution resources.
To read more, click link below to subscribe to Intel® Software Dispatch and begin receiving Intel® Software Insight, a quarterly e-zine focused on the topics software-industry leaders care about. Once you subscribe, you will be able to download the pdf continue reading Intel® Multi-Core Processor Achitecture Development Backgrounder.
To read complete article, click download below.
If you're interested in this topic, these articles may be helpful:
 | Intel software development products from Intel Corp. The Intel® Software Development Products are a... |
| Accelerating .NET applications with the Intel VTune Performance Analyzer 6.1 by Alan Zeichick, The Intel VTune Performance Analyzer is more th... |
| Creating C# wrappers for Intel Integrated Performance Primitives using Microsoft .NET interoperability mechanisms from Intel Corp. One of the beauties of .NET is that an object wri... |
| Getting started with SSE/SSE2 for the Intel Pentium 4 Processor Intel Corp. This paper teaches the programmer how to get started wi... |
| Intel® Visual Fortran Compiler 8.1 for Windows Achieve outstanding application performance with advanced optimization... |
Recent Jobs:
| Service Delivery Manager #ITS-0153159 - TX - San Antonio - IBM The Service Delivery Manager will reside in San Antonio, Texas. Th... |
| SAP Technical Lead Architect #GBS-0163818 - DC - Washington - IBM IBM Business Consulting Services is currently looking for a Lead SAP P... |
| Project Management #ITD-0162487 - USA - IBM This position is customer interfacing role responsible for leading a p... |
| SAP Workflow Senior Consultant #GBS-0163018 - DC - Washington - IBM Successful candidates will be responsible for SAP workflow configurati... |
| SAP ABAP Senior Consultant #GBS-0163021 - TX - Dallas - IBM IBM Business Consulting Services is seeking senior SAP ABAP Developers... |
| SAP Accounts Payable (FI) #GBS-0163035 - DC - Washington - IBM This individual will serve as a SAP Application Functional Specialist,... |
| SAP Accounts Payable (FI) #GBS-0163035 - AL - Huntsville - IBM This individual will serve as a SAP Application Functional Specialist,... |
| Software Engineer - Entry Level #STG-0164877 - GA - Atlanta - IBM Systems and Technology Group has an entry-level opening on its exciti... |
| System Services Representative #GTS-0164065 - TX - Lubbock - IBM This role is an individual contributor responsible for on-site install... |
| SAP MM Senior Consultant #GBS-0162893 - DC - Washington - IBM The SAP Materials Management (MM) Senior Consultant should possess exp... |
