Data Sheet
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Intel® Pentium® 4 Processors 570/571, 560/561, 550/551, 540/541, 530/531 and 520/521∆ Supporting Hyper-Threading Technology1 Datasheet On 90 nm Process in 775-land LGA Package and supporting Intel® Extended Memory 64 TechnologyΦ May 2005 Document Number: 302351-004
Intel® Pentium® 4 Processors 570/571, 560/561, 550/551, 540/541, 530/531 and 520/521∆ Supporting Hyper-Threading Technology1 Datasheet On 90 nm Process in 775-land LGA Package and supporting Intel® Extended Memory 64 TechnologyΦ May 2005 Document Number: 302351-004
Data Sheet
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... in the 775-land package on whether your product order. See http://www.intel.com/info/em64t for more information including details on which processors support EM64T or consult with your PC manufacturer on 90 nm process may contain design defects or errors known as the property of others. Intel, Pentium, Itanium, Intel Xeon, Intel NetBurst and...
... in the 775-land package on whether your product order. See http://www.intel.com/info/em64t for more information including details on which processors support EM64T or consult with your PC manufacturer on 90 nm process may contain design defects or errors known as the property of others. Intel, Pentium, Itanium, Intel Xeon, Intel NetBurst and...
Data Sheet
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...2.2 Power and Ground Lands 15 2.3 Decoupling Guidelines...15 2.3.1 VCC Decoupling ...16 2.3.2 FSB GTL+ Decoupling 16 2.3.3 FSB Clock (BCLK[1:0]) and Processor Clocking 16 2.4 Voltage Identification ...17 2.4.1 Phase Lock Loop (PLL) Power and Filter 19 2.5 Reserved, Unused, FC and TESTHI Signals 20 2.6...Test Access Port (TAP) Connection 23 2.9 FSB Frequency Select Signals (BSEL[2:0 23 2.10 Absolute Maximum and Minimum Ratings 24 2.11 Processor DC Specifications 24 2.12 VCC Overshoot Specification 33 2.12.1 Die Voltage Validation 33 2.13 GTL+ FSB Specifications...34 3 Package Mechanical...
...2.2 Power and Ground Lands 15 2.3 Decoupling Guidelines...15 2.3.1 VCC Decoupling ...16 2.3.2 FSB GTL+ Decoupling 16 2.3.3 FSB Clock (BCLK[1:0]) and Processor Clocking 16 2.4 Voltage Identification ...17 2.4.1 Phase Lock Loop (PLL) Power and Filter 19 2.5 Reserved, Unused, FC and TESTHI Signals 20 2.6...Test Access Port (TAP) Connection 23 2.9 FSB Frequency Select Signals (BSEL[2:0 23 2.10 Absolute Maximum and Minimum Ratings 24 2.11 Processor DC Specifications 24 2.12 VCC Overshoot Specification 33 2.12.1 Die Voltage Validation 33 2.13 GTL+ FSB Specifications...34 3 Package Mechanical...
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... 86 6.2.3 Stop-Grant State...87 6.2.4 Enhanced HALT Snoop or HALT Snoop State, Grant Snoop State 88 7 Boxed Processor Specifications ...89 7.1 Mechanical Specifications 90 7.1.1 Boxed Processor Cooling Solution Dimensions 90 7.1.2 Boxed Processor Fan Heatsink Weight 91 7.1.3 Boxed Processor Retention Mechanism and Heatsink Attach Clip Assembly 91 7.2 Electrical Requirements...91 7.2.1 Fan Heatsink Power Supply 91 7.3 Thermal...
... 86 6.2.3 Stop-Grant State...87 6.2.4 Enhanced HALT Snoop or HALT Snoop State, Grant Snoop State 88 7 Boxed Processor Specifications ...89 7.1 Mechanical Specifications 90 7.1.1 Boxed Processor Cooling Solution Dimensions 90 7.1.2 Boxed Processor Fan Heatsink Weight 91 7.1.3 Boxed Processor Retention Mechanism and Heatsink Attach Clip Assembly 91 7.2 Electrical Requirements...91 7.2.1 Fan Heatsink Power Supply 91 7.3 Thermal...
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... Example Waveform 33 3-1 Processor Package Assembly Sketch 35 3-2 Processor Package Drawing 1 36 3-3 Processor Package Drawing 2 37 3-4 Processor Package Drawing 3 38 3-5 Processor Top-Side Marking Example 40 3-6 Processor Top-Side Marking Example for the Boxed Processor (Overall View 91 7-5 Boxed Processor Fan Heatsink Power Cable Connector Description 92 7-6 Baseboard Power Header Placement Relative to Processor Socket 93 7-7 Boxed Processor Fan Heatsink Airspace...
... Example Waveform 33 3-1 Processor Package Assembly Sketch 35 3-2 Processor Package Drawing 1 36 3-3 Processor Package Drawing 2 37 3-4 Processor Package Drawing 3 38 3-5 Processor Top-Side Marking Example 40 3-6 Processor Top-Side Marking Example for the Boxed Processor (Overall View 91 7-5 Boxed Processor Fan Heatsink Power Cable Connector Description 92 7-6 Baseboard Power Header Placement Relative to Processor Socket 93 7-7 Boxed Processor Fan Heatsink Airspace...
Data Sheet
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... Absolute Maximum Ratings 24 2-8 Voltage and Current Specifications 25 2-9 VCC Static and Transient Tolerance for 775_VR_CONFIG_04A Processors 27 2-10 VCC Static and Transient Tolerance for 775_VR_CONFIG_04B Processors 29 2-11 GTL+ Asynchronous Signal Group DC Specifications 31 2-12 GTL+ Signal Group DC Specifications 31 2-13 PWRGOOD and TAP Signal Group DC Specifications 32...
... Absolute Maximum Ratings 24 2-8 Voltage and Current Specifications 25 2-9 VCC Static and Transient Tolerance for 775_VR_CONFIG_04A Processors 27 2-10 VCC Static and Transient Tolerance for 775_VR_CONFIG_04B Processors 29 2-11 GTL+ Asynchronous Signal Group DC Specifications 31 2-12 GTL+ Signal Group DC Specifications 31 2-13 PWRGOOD and TAP Signal Group DC Specifications 32...
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... capability • Added Icc Enhanced Auto Halt specifications • Added support for Thermal Monitor 2 • Added specifications for processor number 570 with PRB = 1 • Added specifications for processor numbers 571, 561, 551, 541, 531, and 521. • Modified Table 2-3, "FSB Signal Groups". • Added Note 5 to Table 2-18. • Updated Figure 3-5 Top SIde...
... capability • Added Icc Enhanced Auto Halt specifications • Added support for Thermal Monitor 2 • Added specifications for processor number 570 with PRB = 1 • Added specifications for processor numbers 571, 561, 551, 541, 531, and 521. • Modified Table 2-3, "FSB Signal Groups". • Added Note 5 to Table 2-18. • Updated Figure 3-5 Top SIde...
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... Technology1 (HT Technology) for all frequencies with 800 MHz front side bus (FSB) • Intel® Pentium® 4 processors 571, 561, 551, 541, 531, and 521 support Intel® Extended Memory 64 Technology (EM64T)Φ • Supports Execute Disable Bit capability •... associativity provides improved cache hit rate on load/store operations • 775-land Package The Intel® Pentium® 4 processor family supporting Hyper-Threading Technology1 (HT Technology) delivers Intel's advanced, powerful processors for desktop PCs and entry-level workstations that are based on the...
... Technology1 (HT Technology) for all frequencies with 800 MHz front side bus (FSB) • Intel® Pentium® 4 processors 571, 561, 551, 541, 531, and 521 support Intel® Extended Memory 64 Technology (EM64T)Φ • Supports Execute Disable Bit capability •... associativity provides improved cache hit rate on load/store operations • 775-land Package The Intel® Pentium® 4 processor family supporting Hyper-Threading Technology1 (HT Technology) delivers Intel's advanced, powerful processors for desktop PCs and entry-level workstations that are based on the...
Data Sheet
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... compatibility with the Pentium 4 processor in the 775-land package and SSE3 become available in the Intel® Extended Memory 64 Technology Software Developer Guide at: http://developer.intel.com/ technology/64bitextensions/. TTehcehInnotelolgPyen(EtiMum644Tp)Φrocaessasnoren5h7a1n, c5e6m1,e5n4t 1to, 531, and 521 Intel's IA-32 support Intel® Extended Memory 64 architecture. The Pentium 4 processor on an Intel processor supporting Intel® EM64T...
... compatibility with the Pentium 4 processor in the 775-land package and SSE3 become available in the Intel® Extended Memory 64 Technology Software Developer Guide at: http://developer.intel.com/ technology/64bitextensions/. TTehcehInnotelolgPyen(EtiMum644Tp)Φrocaessasnoren5h7a1n, c5e6m1,e5n4t 1to, 531, and 521 Intel's IA-32 support Intel® Extended Memory 64 architecture. The Pentium 4 processor on an Intel processor supporting Intel® EM64T...
Data Sheet
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... of the processor package used terms are explained here for clarification: • Pentium 4 processor on 90 nm process in Intel® Itanium® processors. Intel will also include the Execute Disable Bit capability previously available in the 775-land package ...Processor Packaging Terminology Commonly used to processors, memory, and I/O. Component thermal solutions interface with an integrated heat spreader (IHS). • LGA775 socket - Introduction 1.1 1.1.1 The Pentium 4 processor on 90 nm process in the LGA775-land package will enable support components for the processor...
... of the processor package used terms are explained here for clarification: • Pentium 4 processor on 90 nm process in Intel® Itanium® processors. Intel will also include the Execute Disable Bit capability previously available in the 775-land package ...Processor Packaging Terminology Commonly used to processors, memory, and I/O. Component thermal solutions interface with an integrated heat spreader (IHS). • LGA775 socket - Introduction 1.1 1.1.1 The Pentium 4 processor on 90 nm process in the LGA775-land package will enable support components for the processor...
Data Sheet
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...independent of the socket. • Storage conditions-Refers to free air. References Document Document Numbers/ Location Intel® Pentium® 4 Processor on 90 nm Process Specification Update http://developer.intel.com/ design/Pentium4/ specupdt/302352.htm Intel® Pentium® 4 Processor on the ...available in the 775-Land Package Thermal Design Guidelines http://developer.intel.com/ design/Pentium4/guides/ 302553.htm Voltage Regulator Down (VRD) 10.1 Design Guide For Desktop LGA775 Socket Intel® Architecture Software Developer's Manual IA-32 Intel® Architecture ...
...independent of the socket. • Storage conditions-Refers to free air. References Document Document Numbers/ Location Intel® Pentium® 4 Processor on 90 nm Process Specification Update http://developer.intel.com/ design/Pentium4/ specupdt/302352.htm Intel® Pentium® 4 Processor on the ...available in the 775-Land Package Thermal Design Guidelines http://developer.intel.com/ design/Pentium4/guides/ 302553.htm Voltage Regulator Down (VRD) 10.1 Design Guide For Desktop LGA775 Socket Intel® Architecture Software Developer's Manual IA-32 Intel® Architecture ...
Data Sheet
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...Intel chipsets will also provide on-die termination, thus eliminating the need to VTT. Some GTL+ signals do so can result in the 775-land package has 226 VCC (power), 24 VTT and 273 VSS (ground) lands. The GTL+ bus depends on -chip power distribution, the Pentium 4 processor... Guidelines Due to the Voltage Regulator Down (VRD) 10.1 Design Guide For Desktop LGA775 Socket. For further information and design guidelines, refer to its large number of the processor interfaces and signals. Electrical Specifications 2 Electrical Specifications 2.1 2.2 2.3 This chapter describes the electrical...
...Intel chipsets will also provide on-die termination, thus eliminating the need to VTT. Some GTL+ signals do so can result in the 775-land package has 226 VCC (power), 24 VTT and 273 VSS (ground) lands. The GTL+ bus depends on -chip power distribution, the Pentium 4 processor... Guidelines Due to the Voltage Regulator Down (VRD) 10.1 Design Guide For Desktop LGA775 Socket. For further information and design guidelines, refer to its large number of the processor interfaces and signals. Electrical Specifications 2 Electrical Specifications 2.1 2.2 2.3 This chapter describes the electrical...
Data Sheet
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...[1:0] frequency. Listed frequencies are not necessarily committed production frequencies. No user intervention is a multiple of System Core Frequency to the socket. The Pentium 4 processor in the 775-land package integrates signal termination on the processor package. Notes1, 2 - 16 Datasheet For more information on , or entering/exiting low power states, must also be provided by the...
...[1:0] frequency. Listed frequencies are not necessarily committed production frequencies. No user intervention is a multiple of System Core Frequency to the socket. The Pentium 4 processor in the 775-land package integrates signal termination on the processor package. Notes1, 2 - 16 Datasheet For more information on , or entering/exiting low power states, must also be provided by the...
Data Sheet
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... that one voltage regulator can work with frequency. See the Voltage Regulator Down (VRD) 10.1 Design Guide For Desktop LGA775 Socket for the Pentium 4 processor in the 775-land package. GTLREF_SEL = 0 for the Pentium 4 processor in the 775-land package is used by the platform to have a relaxed minimum voltage specification. 2.4 Electrical Specifications Voltage Identification The VID...
... that one voltage regulator can work with frequency. See the Voltage Regulator Down (VRD) 10.1 Design Guide For Desktop LGA775 Socket for the Pentium 4 processor in the 775-land package. GTLREF_SEL = 0 for the Pentium 4 processor in the 775-land package is used by the platform to have a relaxed minimum voltage specification. 2.4 Electrical Specifications Voltage Identification The VID...
Data Sheet
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... for the Pentium 4 processor in Figure 2-1. . Electrical Specifications 2.4.1 Phase Lock Loop (PLL) Power and Filter VCCA and VCCIOPLL are analog, they require low noise power supplies for minimum jitter. fpeak, if existent, should be low pass filtered from 66 MHz to core frequency The filter requirements are illustrated in the 775-land package...
... for the Pentium 4 processor in Figure 2-1. . Electrical Specifications 2.4.1 Phase Lock Loop (PLL) Power and Filter VCCA and VCCIOPLL are analog, they require low noise power supplies for minimum jitter. fpeak, if existent, should be low pass filtered from 66 MHz to core frequency The filter requirements are illustrated in the 775-land package...
Data Sheet
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... leaving unused outputs unterminated may use pull-up resistors or be terminated on the system board. Unused outputs can result in the 775-land package to allow for compatibility with other TESTHI signals • TESTHI13 - FCx signals are available for system testability. cannot ... outputs do not include on -die termination. Most unused GTL+ inputs should be left as no connects, as the on the Pentium 4 processor in component malfunction or incompatibility with other ) can be used for details on GTL+ signals that are signals that do not include...
... leaving unused outputs unterminated may use pull-up resistors or be terminated on the system board. Unused outputs can result in the 775-land package to allow for compatibility with other TESTHI signals • TESTHI13 - FCx signals are available for system testability. cannot ... outputs do not include on -die termination. Most unused GTL+ inputs should be left as no connects, as the on the Pentium 4 processor in component malfunction or incompatibility with other ) can be used for details on GTL+ signals that are signals that do not include...
Data Sheet
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...; pull-up to their high-voltage level. . These signals also have setup or hold time specifications in relation to 1 transition) by the processor. See Section 6.1 for entering and leaving the low power states. 22 Datasheet Table 2-4. Table 2-5. These signals do not have RTT, nor are...TMS1, TRST#1 NOTES: 1. All of the GTL+ Asynchronous signals are required to be asserted/de-asserted for at least six BCLKs for the processor to Section 4.2 for more information. 2.7 GTL+ Asynchronous Signals Legacy input signals such as GTL+ signals, however the outputs are not actively ...
...; pull-up to their high-voltage level. . These signals also have setup or hold time specifications in relation to 1 transition) by the processor. See Section 6.1 for entering and leaving the low power states. 22 Datasheet Table 2-4. Table 2-5. These signals do not have RTT, nor are...TMS1, TRST#1 NOTES: 1. All of the GTL+ Asynchronous signals are required to be asserted/de-asserted for at least six BCLKs for the processor to Section 4.2 for more information. 2.7 GTL+ Asynchronous Signals Legacy input signals such as GTL+ signals, however the outputs are not actively ...
Data Sheet
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The Pentium 4 processor in the 775-land package currently operates at a 533 MHz or 800 MHz FSB frequency (selected by any other components within the system. BSEL[2:0] Frequency Table for TCK, ... MHz H RESERVED L 200 MHz L RESERVED H RESERVED H RESERVED L RESERVED Datasheet 23 Table 2-6. Two copies of the processor input clock (BCLK[1:0]). Individual processors will only operate at the same frequency. The required frequency is recommended that the Pentium 4 processor in the 775-land package be used to Section 4.2. A translation buffer should be first in the TAP chain...
The Pentium 4 processor in the 775-land package currently operates at a 533 MHz or 800 MHz FSB frequency (selected by any other components within the system. BSEL[2:0] Frequency Table for TCK, ... MHz H RESERVED L 200 MHz L RESERVED H RESERVED H RESERVED L RESERVED Datasheet 23 Table 2-6. Two copies of the processor input clock (BCLK[1:0]). Individual processors will only operate at the same frequency. The required frequency is recommended that the Pentium 4 processor in the 775-land package be used to Section 4.2. A translation buffer should be first in the TAP chain...
Data Sheet
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...Table 2-8 through Table 2-15 list the DC specifications for the signal definitions and signal assignments. Storage temperature is subjected to the processor. 3. Most of the signals on exposure to conditions outside functional operation condition limits, but with each parameter. Previously, legacy ... absolute maximum and minimum ratings, the device may be taken to GTL+. TC Processor case temperature See Section 5 See Section 5 °C - See Chapter 4 for the Pentium 4 processor in the 775-land package and are listed in the GTL+ signal group. MSR_PLATFORM_BRV bit 18 ...
...Table 2-8 through Table 2-15 list the DC specifications for the signal definitions and signal assignments. Storage temperature is subjected to the processor. 3. Most of the signals on exposure to conditions outside functional operation condition limits, but with each parameter. Previously, legacy ... absolute maximum and minimum ratings, the device may be taken to GTL+. TC Processor case temperature See Section 5 See Section 5 °C - See Chapter 4 for the Pentium 4 processor in the 775-land package and are listed in the GTL+ signal group. MSR_PLATFORM_BRV bit 18 ...
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... (Sheet 1 of 2) Symbol VID range VCC VCC ICC Parameter VID Processor Number Core Frequency 570/571 560/561 550 VCC for 775_VR_CONFIG_04B processors 3.80 GHZ (PRB = 1) 3.60 GHz (PRB = 1) 3.40 GHz (PRB = 1) 550/551 540/541 530/531 520/521 VCC for 775_VR_CONFIG_04A processors 3.40 GHz (PRB = 0) 3.20 GHz (PRB = 0) 3 ...GHz (PRB = 0) 2.80 GHz (PRB = 0) 570/571 560/561 550 550/551 540/541 530/531 520/521 ICC for processor with multiple VID 3.80 GHZ (PRB = 1) 3.60 GHz (PRB = 1) 3.40 GHz (PRB = 1) 3.40 GHz (PRB = 0) 3.20 GHz (PRB = 0) 3 GHz (PRB = 0) 2.80 ...
... (Sheet 1 of 2) Symbol VID range VCC VCC ICC Parameter VID Processor Number Core Frequency 570/571 560/561 550 VCC for 775_VR_CONFIG_04B processors 3.80 GHZ (PRB = 1) 3.60 GHz (PRB = 1) 3.40 GHz (PRB = 1) 550/551 540/541 530/531 520/521 VCC for 775_VR_CONFIG_04A processors 3.40 GHz (PRB = 0) 3.20 GHz (PRB = 0) 3 ...GHz (PRB = 0) 2.80 GHz (PRB = 0) 570/571 560/561 550 550/551 540/541 530/531 520/521 ICC for processor with multiple VID 3.80 GHZ (PRB = 1) 3.60 GHz (PRB = 1) 3.40 GHz (PRB = 1) 3.40 GHz (PRB = 0) 3.20 GHz (PRB = 0) 3 GHz (PRB = 0) 2.80 ...