Intel PMB-601LF CAS Latency Time, Dram RAS# to CAS# Delay, Dram RAS# Precharge Time, Dvmt Mode

Page 62

Chapter 4 Award BIOS Setup

CAS LATENCY TIME:

When synchronous DRAM is installed, the number of clock cycles of CAS latency depends on the DRAM timing.

DRAM RAS# TO CAS# DELAY:

This item let you insert a timing delay between the CAS and RAS strobe signals, used when DRAM is written to, read from, or refreshed. Fast gives faster performance; and Slow gives more stable performance. This field applies only when synchronous DRAM is installed in the system. The choices are 2 and 3.

DRAM RAS# PRECHARGE TIME:

If an insufficient number of cycles is allowed for the RAS to accumulate its charge before DRAM refresh, the refresh may be incomplete and the DRAM may fail to retain data. Fast gives faster performance; and Slow gives more stable performance. This field applies only when synchronous DRAM is installed in the system. The choices are 2 & 3.

PRECHARGE DEALY (tRAS):

Precharge Delay This setting controls the precharge delay, which determines the timing delay for DRAM precharge

SYSTEM MEMORY FREQUENCY:

Allow to choose different frequency of memory module.

MEMORY HOLE AT 15-16M:

You can reserve this area of system memory for ISA adapter ROM. When this area is reserved, it cannot be cached. The user information of peripherals that need to use this area of system memory usually discusses their memory requirements

PEG/ONCHIP VGA CONTROL:

To select the PCI-Express Graphics or onchip VGA Graphics.

ON-CHIP FRAME BUFFER SIZE:

The On-Chip Frame Buffer Size can be set as 32MB. This memory is shared with the system memory.

DVMT MODE:

Intel Dynamic Video Memory Technology Mode.

PMB-601LF USERS MANUAL

Page: 4-13

Image 62
Contents USER’S Manual PMB-601LF Intel Core 2 Duo FCC Notice Table of Contents Appendix Expansion BUS Introduction Hardware Configuration About this ManualSystem Specifications CPU mPGA775Sata Interface Irda Port Safety Precautions Hardware Jumper & Connector Quick Reference Table PMB-601LF Connector, Jumper and Component locations Component LocationsHOW to SET the Jumpers Jumpers and CapsJumper Diagrams Jumper SettingsRS-232 RS-422 RS-485 COM Port ConnectorPIN Assignment COM3DCD# Selection Jumper Settings Illustration COM3 RI & Voltage SelectionCOM4 RI & Voltage Selection Jumper Settings Function Pin closed Illustrations COMKeyboard and PS/2 Mouse Connector Reset ConnectorExternal Speaker Connector Hard Disk Drive LED ConnectorATX Power Button PIN Assignment SpkvccExternal SMI Connector Pled ConnectorKeylock Connector Clear Cmos Data Selection CPU FAN ConnectorFunction Jumper Setting NB FAN Connector System FAN ConnectorPower FAN Connector VGA Connector SATA2 PIN Assignment Serial ATA ConnectorSATA1 PIN Assignment SATA3 PIN Assignment SATA4 PIN AssignmentFloppy Disk Drive Connector Printer Connector Universal Serial BUS Connector Irda Connector USB&LAN Connector LAN21MDIP0 ATX Power Connector Line-Out Sound ConnectorLine-In Mic-InDram Bank Configuration Dimm DIMM3 DIMM4 Total Memory CD AUDIO-IN ConnectorMemory Installation Software Utilities Introduction Filename Purpose Assume that CD ROM drive is DInstallation of VGA Driver VGA Driver UtilityFlash Bios Update System Bios UpdatePage3-5 LAN Driver Utility IntroductionInstallation Procedure for Windows 2000/XP/2003 Sound Driver UtilityIntel Chipset Software Installation Utility Installation of Utility for Windows 2000/XP/2003USB2.0 Software Installation Utility Installation of Utility for Windows 2000/XPWatchdog Timer Configuration Configuration SequencePage3-11 Award Bios Setup Introduction Entering Setup Setup program initial screenDate Standard Cmos FeaturesCmos Setup screen TimeSata Channel 0/1/2/3/4/5 Halt on Drive aVideo Base MemoryHard Disk Attributes Award Hard Disk Type TableAdvanced Bios Features Bios Features Setup ScreenLimit Cpuid Maxval CPU FeatureExecute Disable BIT Vitrualization TechnologyBoot UP Floppy Seek Hard Disk Boot PriorityFIRST/SECOND/ THIRD/ Other Boot Device Typematic Rate SettingTypematic Rate CHARS/SEC Typematic Delay MsecApic Mode Security OptionDram Timeing Selectable Advanced Chipset FeaturesChipset Features Setup Screen CAS Latency Time Dram RAS# to CAS# DelayDvmt Mode Dram RAS# Precharge TimeDVMT/FIXED Memory Size Integrated Peripherals Setup ScreenIntegrated Peripherals Onchip IDE Device IDE HDD Block ModeIDE DMA Transter Access Primary MASTER/SLAVE PIO Secondary MASTER/SLAVE PIOSuper IO Device USB Device Setting Onboard Serial Port 3/4 Serial Port 3/4 USE IRQUSB Mouse Function USB 1.0 ControllerUSB Keyboard Function USB Flash DiskAcpi Function Power Management SetupPower Management Setup Screen Resume by Alarm Power ManagementSuspend Mode SOFT-OFF by PWR-BTTNReset Configuration Data PNP/PCI ConfigurationPNP/PCI Configuration Setup Screen Init Display FirstIRQ-n Assigned to Resource Controlled byIRQ Resources PCI/VGA Palette SnoopCPU/SYSTEM/POWER FAN Shutdown TemperatureSYSTEM/CPU Temperature PC Health StatusAuto Detect DIMM/PCI CLK Frequency / Voltage Control Setup ScreenFREQUENCY/VOLTAGE Control Spread SpectrumLoad FAIL-SAFE Defaults Load Optimized DefaultsTo Disable the Password Password SettingTo SET a Password Save & Exit Setup Exit Without Saving Expansion BUS PCI BUS PIN Assignment Technical Summary Block Diagram Interrupt MAP IRQ AssignmentRTC & Cmos RAM MAP Code AssignmentDMA Channel Map Assignment Timer & DMA Channels MAPTimer Channel Map Assignment Map Memory MAPMemory Map

PMB-601LF specifications

The Intel PMB-601LF is a versatile and powerful multimedia processor designed primarily for automotive applications. Leveraging Intel's advanced technology expertise, the PMB-601LF brings together high-performance computing capabilities with energy efficiency, making it a pivotal component in modern automotive systems, such as infotainment and telematics.

One of the standout features of the PMB-601LF is its robust processing architecture, which typically includes multiple cores capable of executing concurrent tasks. This multi-core design ensures smooth operation of complex applications, enabling real-time processing for user interfaces, navigation systems, and advanced driver-assistance systems (ADAS). With its support for high-definition video playback and multi-channel audio output, the PMB-601LF enhances the in-car experience by delivering rich multimedia content.

In terms of connectivity, the Intel PMB-601LF is equipped with various interfaces, including USB, Ethernet, and CAN bus, allowing seamless integration with a wide range of automotive sensors and external devices. This connectivity is essential for modern vehicles that rely on extensive data exchange between different subsystems and the cloud.

Another significant characteristic of this processor is its energy efficiency. Designed to meet the stringent power consumption requirements of automotive applications, the PMB-601LF operates effectively within the limited power budgets often present in vehicles. Its ability to maintain high performance while minimizing power draw is crucial for optimizing overall vehicle energy consumption, especially in electric and hybrid models.

The PMB-601LF also incorporates advanced security features, which are becoming increasingly important in the age of connected vehicles. By integrating hardware-level security protocols, the processor helps protect against potential vulnerabilities and cyber threats, ensuring the safety and integrity of vehicle systems and data.

Furthermore, Intel's investment in software compatibility and support for various operating systems provides developers with the tools they need to create and customize applications tailored to specific consumer needs. The flexibility of the PMB-601LF facilitates the development of innovative solutions that enhance vehicle functionality and user experiences.

In summary, the Intel PMB-601LF is a powerful multimedia and automotive processor that combines high performance, energy efficiency, robust connectivity, and advanced security features. As the automotive industry continues to evolve towards more connected and autonomous vehicles, the PMB-601LF is positioned as a critical enabler of the next generation of automotive technologies, ultimately improving the driving experience and advancing automotive innovation.