Intel Core 2 Duo E6750 Preview

Wednesday, June 3, 2009

it hasn't been a full year since we saw Intel launch their Core 2 Duo processors, but we will soon be seeing a line-up refresh. This is one product that really needs no introduction, but seeing as this is a refresh, refreshing everyones minds seems appropriate. Intel launched the Core 2 Duo to much fanfare last July. Months prior to this, enthusiasts were drooling over leaks of performance reports, which fortunately, turned out to be right on the money.

The entire Conroe line-up is built on a 65nm process, with the mainstream products offering 4MB of L2 cache. Improved over the previous Pentium 4/Pentium D line-up was better power efficiency resulting in a lower TDP and better overall temperatures. This is appreciated, as two cores under the same IHS can potentially create an unwanted room heater.

All but the lowest end Core 2 Duos take advantage of a 1066FSB. This is where this refreshed line-up comes into play, as it ushers in 1333FSB computing. This noticeable speed bump is all done while retaining the same TDP.

All Conroe 1333FSB processors are identified by by a 50 at the end of the product name, hence E6750, which is effectively taking over the spot of the E6700. Nothing has changed except for the FSB and speeds, except the ratio of course, which had to be altered in order to compliment the upgraded frequency.

One thing that should be cleared up is that most overclocking enthusiasts have already accomplished the same speeds we are seeing today, with most being exceeded. In fact, there is nothing stopping anyone from popping in an E6600 and overclocking using a 333FSB and 8 multiplier. That would effectively give you the exact same speed as the E6750 we are taking a look at today.

You might be wondering where the benefit is, with this official speed bump. Primarily it will benefit those non-overclockers most. There is no comparison to equal processor speed at 1066FSB and 1333FSB. That added FSB frequency should make a much more noticeable performance difference than the CPU frequency boost itself.

Intel® Core™2 Duo Desktop Processor, Intel® Pentium® Dual-Core Processor and Intel® Pentium® 4 Processor 6x1

— For the Intel® Core™2 Duo Desktop Processor E6000Δ and E4000Δ sequences, Intel® Pentium® Dual-Core Processor E2000Δ sequence and Intel® Pentium® 4 Processor 6x1Δ sequence at 65 W

Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™2 Duo desktop processor E6000/E4000Δ sequences, Intel® Pentium® Dual Core Processor E2000Δ sequence, and Intel® Pentium® 4 Processor 6x1Δ Sequence.

The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor.

64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.

Δ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number/ for details.

‡ Not all specified units of this processor support Enhanced Intel SpeedStep® Technology. See the Processor Spec Finder at processorfinder.intel.com or contact your Intel representative for more information.

± Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information.

° Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.

Intel® Core™2 Duo Desktop Processor, Intel® Pentium® Dual-Core Processor and Intel® Pentium® 4 Processor

6x1
— For the Intel® Core™2 Duo Desktop Processor E6000Δ and E4000Δ sequences, Intel® Pentium® Dual-Core Processor E2000Δ sequence and Intel® Pentium® 4 Processor 6x1Δ sequence at 65 W

Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™2 Duo desktop processor E6000/E4000Δ sequences, Intel® Pentium® Dual Core Processor E2000Δ sequence, and Intel® Pentium® 4 Processor 6x1Δ Sequence.

The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor.

64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.

Δ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number/ for details.

‡ Not all specified units of this processor support Enhanced Intel SpeedStep® Technology. See the Processor Spec Finder at processorfinder.intel.com or contact your Intel representative for more information.

± Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information.

° Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.

Intel® Core™2 Duo Desktop Processor, Intel® Pentium® Dual-Core Processor and Intel® Pentium® 4

Processor 6x1
— For the Intel® Core™2 Duo Desktop Processor E6000Δ and E4000Δ sequences, Intel® Pentium® Dual-Core Processor E2000Δ sequence and Intel® Pentium® 4 Processor 6x1Δ sequence at 65 W

Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™2 Duo desktop processor E6000/E4000Δ sequences, Intel® Pentium® Dual Core Processor E2000Δ sequence, and Intel® Pentium® 4 Processor 6x1Δ Sequence.

The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor.

64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.

Δ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number/ for details.

‡ Not all specified units of this processor support Enhanced Intel SpeedStep® Technology. See the Processor Spec Finder at processorfinder.intel.com or contact your Intel representative for more information.

± Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information.

° Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.

Intel Core 2 Duo E6750 Preview

it hasn't been a full year since we saw Intel launch their Core 2 Duo processors, but we will soon be seeing a line-up refresh. This is one product that really needs no introduction, but seeing as this is a refresh, refreshing everyones minds seems appropriate. Intel launched the Core 2 Duo to much fanfare last July. Months prior to this, enthusiasts were drooling over leaks of performance reports, which fortunately, turned out to be right on the money.

The entire Conroe line-up is built on a 65nm process, with the mainstream products offering 4MB of L2 cache. Improved over the previous Pentium 4/Pentium D line-up was better power efficiency resulting in a lower TDP and better overall temperatures. This is appreciated, as two cores under the same IHS can potentially create an unwanted room heater.

All but the lowest end Core 2 Duos take advantage of a 1066FSB. This is where this refreshed line-up comes into play, as it ushers in 1333FSB computing. This noticeable speed bump is all done while retaining the same TDP.

All Conroe 1333FSB processors are identified by by a 50 at the end of the product name, hence E6750, which is effectively taking over the spot of the E6700. Nothing has changed except for the FSB and speeds, except the ratio of course, which had to be altered in order to compliment the upgraded frequency.

One thing that should be cleared up is that most overclocking enthusiasts have already accomplished the same speeds we are seeing today, with most being exceeded. In fact, there is nothing stopping anyone from popping in an E6600 and overclocking using a 333FSB and 8 multiplier. That would effectively give you the exact same speed as the E6750 we are taking a look at today.

You might be wondering where the benefit is, with this official speed bump. Primarily it will benefit those non-overclockers most. There is no comparison to equal processor speed at 1066FSB and 1333FSB. That added FSB frequency should make a much more noticeable performance difference than the CPU frequency boost itself.

Web Search Tips for Internet Explorer 8

Internet Explorer 8 has many useful features that improve the way you search and browse the web. If you like to search from the address bar, you can now get suggestions from the default search engine if you prefix your query with "? ". IE8 also shows previously visited pages that match the text you typed, but it only searches titles and URLs.


One of my favorite features is that the new version of Internet Explorer knows when you're using a search engine directly, without typing the query in IE's search box. The browser detects the query and displays in the built-in search box so you can easily find results using a different search engine.


Another interesting integration lets you find the matches of your query in a search result. After clicking on the result, go to the browser's search box and click on "Find" to see the exact matches and navigate to them.

If you open search results in separate tabs, IE uses distinct colors to visually group the related tabs. Right-clicking on a tab you'll find the option to ungroup the tab and to close the entire group.


Some of the search provides that are available in IE's add-on gallery offer enhanced suggestions. For example, Wikipedia lets you navigate directly to one of its pages, Yahoo and Live Search show instant answers for weather, while Amazon includes product images.

All of the search engines are accessible from the contextual menu so you can search for a text you select. They're added to the list of accelerators, which can include any web service that provides useful information about the selected text or the web page you visit: mapping addresses, translating text or bookmarking the page.


Unlike other browsers, Internet Explorer 8 encourages users to use multiple search engines and makes it easy to switch between them. Sometimes you can even obtain instant answers while you type a query or when you select an accelerator that supports previews.

Intel Xeon 3065 (Dual Core)

Tuesday, June 2, 2009

Build a scalable, flexible infrastructure to grow and change with your business. Intel® architecture powers a range of 64-bit servers1, so you can optimize your computing environment for your unique business requirements. Multi-core Intel® server processors offer breakthrough performance and energy efficiency for implementations of all sizes.

Intel® Xeon® processor 7000 sequence: Large-scale enterprise computing and server consolidation

  • Enterprise databases, ERP, CRM, decision support
  • Scales up to 32 dual-core processors per server
  • Large 16MB cache for very high throughput

Intel Xeon processor 5000 sequence: Intel's most widely deployed server processor

  • E-mail, database, and web servers, high-performance computing
  • Quad-core leading-edge performance or robust dual-core option scales out with two processors per server
  • High-density, low-power options are available

Intel Xeon processor 3000 sequence: Economical servers for small business & clusters

  • Mail, file/print services
  • Quad-core advanced performance or dual-core mainstream processor scales out with one processor per server
  • High-density entry-level configurations and HPC

Intel Pentium E 2200 (Dual Core)

Build a scalable, flexible infrastructure to grow and change with your business. Intel® architecture powers a range of 64-bit servers1, so you can optimize your computing environment for your unique business requirements. Multi-core Intel® server processors offer breakthrough performance and energy efficiency for implementations of all sizes.

Intel® Xeon® processor 7000 sequence: Large-scale enterprise computing and server consolidation

  • Enterprise databases, ERP, CRM, decision support
  • Scales up to 32 dual-core processors per server
  • Large 16MB cache for very high throughput

Intel Xeon processor 5000 sequence: Intel's most widely deployed server processor

  • E-mail, database, and web servers, high-performance computing
  • Quad-core leading-edge performance or robust dual-core option scales out with two processors per server
  • High-density, low-power options are available

Intel Xeon processor 3000 sequence: Economical servers for small business & clusters

  • Mail, file/print services
  • Quad-core advanced performance or dual-core mainstream processor scales out with one processor per server
  • High-density entry-level configurations and HPC

Intel Xeon E 3110 ( Dual Core)

Build a scalable, flexible infrastructure to grow and change with your business. Intel® architecture powers a range of 64-bit servers1, so you can optimize your computing environment for your unique business requirements. Multi-core Intel® server processors offer breakthrough performance and energy efficiency for implementations of all sizes.

Intel® Xeon® processor 7000 sequence: Large-scale enterprise computing and server consolidation

  • Enterprise databases, ERP, CRM, decision support
  • Scales up to 32 dual-core processors per server
  • Large 16MB cache for very high throughput

Intel Xeon processor 5000 sequence: Intel's most widely deployed server processor

  • E-mail, database, and web servers, high-performance computing
  • Quad-core leading-edge performance or robust dual-core option scales out with two processors per server
  • High-density, low-power options are available

Intel Xeon processor 3000 sequence: Economical servers for small business & clusters

  • Mail, file/print services
  • Quad-core advanced performance or dual-core mainstream processor scales out with one processor per server
  • High-density entry-level configurations and HPC