Rastergraf Eclipse3 Series Uživatelský manuál

Eclipse3 Series User’s Manual Graphics Boards for PMC, PCI and CompactPCI Compatible Computers Rastergraf, Inc. 1804-P SE First St. Redmond,

Rastergraf 1-2 General Information 1.2 Functional Description As an aid to understanding the Eclipse3, a block diagram is provided at the end of

Rastergraf General Information 1-3 1.2.1 Borealis Graphics Controller The Rastergraf Borealis 2D/3D graphics controller chip is a 128-bit graphics

Rastergraf 1-4 General Information The Borealis design is based on technology licensed by Rastergraf from S3/Number Nine. The chip itself is manufa

Rastergraf General Information 1-5 1.2.2 DVI Digital Output The Eclipse3 may be ordered with a DVI-compliant transmitter which provides high quali

Rastergraf 1-6 General Information Figure 1-3 Eclipse3 Block Diagram I2C88SetupEngineDrawingEngineRAMDACVGAControlLogic16-32 MBDisplayMemoryRG

Rastergraf General Information 1-7 1.3 Additional References You can find Rastergraf documentation and technical literature on the Rastergraf web

Rastergraf 1-8 General Information 1.4 Specifications for the Eclipse3 The Eclipse3 are available in several configurations: Analog: Borealis gr

Rastergraf General Information 1-9 Scroll, Pan, and Zoom: Scroll - single line (smooth scroll). Pan - anywhere on 16 byte boundaries Zoom: hori

Rastergraf 1-10 General Information Table 1-2 Eclipse3 FCode/Solaris Platform Display Timing Specifications Active Display Analog/ DVI Index Bits

Rastergraf General Information 1-11 Fuse Element: The +5V supplied to the front panel connectors is protected by a Positive Temperature Coefficien

Table of Contents INTRODUCTION... Introduction-1 GETTING HELP ...

Rastergraf 1-12 General Information Environment: Temperature: 0 to 70 degrees C, operating -55 to +85 degrees C, storage Humidity: 5% to 90%

Rastergraf General Information 1-13 Ruggedization Levels: The following table shows the standard ruggedization levels. At the time of writing, co

Rastergraf 1-14 General Information 1.5 Eclipse3 Connectors and Cables There are two possible connector locations on the front panel of the Eclips

Rastergraf General Information 1-15 1.5.1 VGA Connector The graphics board analog output is provided on a standard VGA style compressed 15 pin D-Su

Rastergraf 1-16 General Information Table 1-4 Analog (VGA) Video Connector Pinout VGA Pin Description Ground Type Cable Type 1 Red 75 ohm C

Rastergraf General Information 1-17 1.5.2 DVI-I Connector The DVI front panel connector is a DVI-I (analog/digital) (http://www.ddwg.org/) connec

Rastergraf 1-18 General Information 1.5.3 Connections to the PMC Bus J11 J12 1 n/c n/c 2 1 n/c n/c 2 3 GND PINTAL 4 3 n/c n/c 4 5 n/c n/

Rastergraf General Information 1-19 1.5.4 Connections to the PCI Bus SIDE A SIDE B SIDE A SIDE B 1 n/c n/c 1 33 VDD (3.3V) PCBE2L 33 2

Rastergraf 1-20 General Information 1.5.4 Connections to the PCI Bus (continued) SIDE A SIDE B 65 n/c n/c 65 66 byp (Vio) n/c 66 67 n/c GND

Rastergraf General Information 1-21 1.5.5 J1 Connections to the CompactPCI Bus A B C D E 1 VCC (5V) 1 byp (-12V) 1 n/c 1 byp (+12V) 1 VCC

Rastergraf Figures and Tables Table 1-1 Eclipse3 SDL Platform Display Timing Specifications...1-9 Table 1-2 Eclipse3

Rastergraf 1-22 General Information 1.5.5 J2 Connections to the CompactPCI Bus (optional) Z A B C D E F 1 GND PK_GND GND RIO_BVSYNC RIO_DDCH

Rastergraf General Information 1-23 1.6 Monitor Requirements Rastergraf graphics boards can be used with a variety of monitors. For best performan

Rastergraf 1-24 General Information 1.7 Configuration Information The basic graphics board includes: • Rastergraf Borealis Graphics Processor wi

Rastergraf Installing Your Peritek Graphics Board 2-1 Chapter 2 Installing Your Peritek Graphics Board 2.1 Introduction There are 2 steps involve

Rastergraf 2-2 Installing Your Peritek Graphics Board 2.2 Unpacking Your Board When you unpack your board, inspect the contents to see if any dama

Rastergraf Installing Your Peritek Graphics Board 2-3 2.3 Preparing for Installation The Eclipse3 includes three different board form factors: PMC

Rastergraf 2-4 Installing Your Peritek Graphics Board 2.3.3 Changing the Jumpers In the following subsections, please refer Figure 2-1 in Section

Rastergraf Installing Your Peritek Graphics Board 2-5 2.4 Eclipse3PMC Graphics Board Installation The Eclipse3PMC board can plug into any 32-bit,

Rastergraf 2-6 Installing Your Peritek Graphics Board Figure 2-1 Jumper Locations for the Fab Rev 1.2 Eclipse3PMC Board JP101Sync-On-GreenJumperFa

Rastergraf Installing Your Peritek Graphics Board 2-7 2. Open the computer and remove the CPU board onto which the graphics PMC board is to be ins

Rastergraf 2-8 Installing Your Peritek Graphics Board Figure 2-3 Installation of a PMC Module into the PMB-C PMC Slot 1 PMC Slot 0

Rastergraf Installing Your Peritek Graphics Board 2-9 Figure 2-4 Installation of the PMC Module into an Emerson CPV3060 4. Touch a metal part of

Rastergraf 2-10 Installing Your Peritek Graphics Board 2.5 Eclipse3PCI Board Installation The Eclipse3PCI board is “Universal PCI” device and is d

Rastergraf Installing Your Peritek Graphics Board 2-11 Figure 2-5 Jumper Locations for the Eclipse3PCI Board JP101Flash BankFab RevisionNumberJP

Rastergraf 2-12 Installing Your Peritek Graphics Board Caution The static electricity that your body builds up normally can seriously damage the c

Rastergraf Installing Your Peritek Graphics Board 2-13 2.6 Eclipse3CPCI Board Installation The Eclipse3CPCI board can plug into any 32-bit, 5V or

Rastergraf 2-14 Installing Your Peritek Graphics Board Figure 2-7 Jumper Locations for the Eclipse3CPCI Board JP102Frame/ChassisGroundFab Revisi

Rastergraf Installing Your Peritek Graphics Board 2-15 Caution The static electricity that your body builds up normally can seriously damage the c

Rastergraf 2-16 Installing Your Peritek Graphics Board 2.7 Finishing the Installation 2.7.1 Connecting to the Monitor If you have an Eclipse3 Sta

Rastergraf Installing Your Peritek Graphics Board 2-17 2.8 Using an Eclipse3 Board in a PC 2.8.1 Multiboard Operation The Windows 2000 and Window

Rastergraf Introduction - 1 Introduction This manual provides information about how to configure, install, and program the Rastergraf Eclipse3 1

Rastergraf 2-18 Installing Your Peritek Graphics Board x86 Image Features: Support for the 16 standard DOS modes as well as 25 extended VESA modes.

Rastergraf Installing Your Peritek Graphics Board 2-19 Table 2-1 x86 Supported Video Modes Type Code Text Graphics Color Range PC ModeDOS

Rastergraf 2-20 Installing Your Peritek Graphics Board 2.9 Using an Eclipse3 Board in a SPARC CPU 2.9.1 Multiboard Operation The Rastergraf load

Rastergraf Installing Your Peritek Graphics Board 2-21 2.9.2.1 Getting Ready to Make the Changes If you are running Solaris, shutdown and halt th

Rastergraf 2-22 Installing Your Peritek Graphics Board 2.9.2.3 Setting the Console Resolution The initial system default console resolution of the

Rastergraf Installing Your Peritek Graphics Board 2-23 2.9.2.4 Setting the Sync Mode The initial system default sync signal output type of Eclipse

Rastergraf 2-24 Installing Your Peritek Graphics Board 2.9.2.5 Setting the Console Background and Text Display Appearance The initial system defau

Rastergraf Installing Your Peritek Graphics Board 2-25 2.10 Using an Eclipse3 Board in a PowerPC If the CPU's on-board firmware is VGA aware,

Rastergraf Programming On-board Devices 3-1 Chapter 3 Programming On-board Devices 3.1 Introduction This chapter covers the special programm

Rastergraf Introduction - 2 Getting Help This installation manual gives specific steps to take to install your Rastergraf graphics board. There are,

Rastergraf 3-2 Programming On-board Devices Note Please read these sections before starting on this chapter: Section 1.2 Functional descriptio

Rastergraf Programming On-board Devices 3-3 3.2 Borealis Graphics Accelerator Note The Borealis Technical Manual is available from Rastergraf unde

Rastergraf 3-4 Programming On-board Devices Block Diagram Borealis is partitioned into the following functional sections: • Host Bus Interface •

Rastergraf Programming On-board Devices 3-5 3.2.4 Linear Windows Controller The Linear Windows Controller provides address decoding, address trans

Rastergraf 3-6 Programming On-board Devices 3.2.6 Display List Processor The Display List Processor (DLP) is used to feed a set of commands to the

Rastergraf Programming On-board Devices 3-7 3.2.10 Internal RAMDAC and PLL Clock Generators The RAMDAC transforms the raw data from the CRT contro

Rastergraf 3-8 Programming On-board Devices 3.2.11 Coordinate System The screen coordinate system has its origin at the upper left hand corner of

Rastergraf Programming On-board Devices 3-9 3.2.12 Borealis Build Options and Power-up Settings The Borealis is a “Plug and Pray” device, whose op

Rastergraf 3-10 Programming On-board Devices 3.3 Borealis Clocks The Eclipse3 boards have several clocks. DECLK is the Borealis Drawing Engine clo

Rastergraf Programming On-board Devices 3-11 3.4 Synchronous Graphics RAM (SGRAM) The display memory chips are expressly designed for high speed g

Rastergraf Introduction - 3 Notices Information contained in this manual is disclosed in confidence and may not be duplicated in full or in part

Rastergraf 3-12 Programming On-board Devices Display Memory Size The pixel size is programmable to 8, 15, 16, or 32 bpp. The SGRAM on the Borealis

Rastergraf Programming On-board Devices 3-13 3.6 Video Timing Parameters The Borealis must be programmed to generate the proper video timing for t

Rastergraf 3-14 Programming On-board Devices 3.6.1 Application Note: Adjusting the Timing Parameters Most monitors have adjustments for Horizontal

Rastergraf Programming On-board Devices 3-15 Figure 3-3 Video Display Timing Fields To change the horizontal frequency: The horizontal frequency

Rastergraf 3-16 Programming On-board Devices To change the vertical frequency: The vertical frequency is also known as vertical refresh rate or ver

Rastergraf Programming On-board Devices 3-17 3.6.3 Request for Help in Determining Video Timing Values Use the following table to request help whe

Rastergraf 3-18 Programming On-board Devices 3.7 System Management Devices and Functions The Eclipse3 Extended Features version boards have device

Rastergraf Programming On-board Devices 3-19 3.8 Talk To Me Through I2C The Borealis chip has a control register that is used to implement the I2C

Rastergraf 3-20 Programming On-board Devices 3.9 DVI Digital Video Output General Description The Thine THC63DV164 transmitter uses DVI® Digital t

Rastergraf Programming On-board Devices 3-21 Figure 3-5 THC63DV164 RGB to 24-bit TMDS Mapping Diagram 24-bit Input Mode (BSEL = 1)DSEL = 1IDCK+Fi

Rastergraf Introduction - 4 Conventions Used In This Manual The following list summarizes the conventions used throughout this manual. Code fragment

Rastergraf 3-22 Programming On-board Devices 3.10 Flash EEPROM The Eclipse3 has a 128 KB Flash EEPROM. It can be updated in the field using a spec

Rastergraf Chapter 4 Troubleshooting Introduction This chapter contains information which should assist you in tracking down installation and fu

Rastergraf 4-2 Troubleshooting 4.1 General Procedures The Eclipse3 boards were designed with reliability and durability in mind. Nevertheless, it

Rastergraf 4.2 Dealing with the PCI Bus Because of the nature of the PCI protocol and the way support has been implemented in the Operating System

Rastergraf 4-4 Troubleshooting defective in proper usage. This warranty does not apply to modules which have been subjected to mechanical abuse, el

Rastergraf Index 5 wire VGA monitors, 2-16 ACE Series, 0-1, 1-1, 1-2, 1-5, 1-8, 1-9, 1-10, 1-14, 1-23, 1-24, 2-3, 2-4, 2-5, 2-6, 2-10, 2-11, 2-13,

Rastergraf General Information 1-1 Chapter 1 General Information 1.1 Introduction The Rastergraf Eclipse3 is part of Rastergraf ’s broad line