Apple G3 manual Benefits to the user

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Dedicated processor bus RAM
Memory bus

Learning to look beyond megahertz

The performance enhancements of the PowerPC G3 processor significantly reduce the usefulness of clock speed in attempting to compare com- puter performance. Apple systems based on this processor consistently outperform systems with higher clock speeds—in fact, they also outperform Pentium II–based systems. Some examples follow.

A 250-megahertz Macintosh PowerBook G3 is faster than a 266-megahertz Pentium II desktop.*

A 233-megahertz Power Macintosh G3 is faster than the Power Macintosh 6500/300 and the Power Macintosh 8600/300.**

A 266-megahertz Power Macintosh G3 provides performance that is on average 30 percent faster than that of a comparable 266-megahertz Pentium II system.*

All of which means that when you’re looking for the computer that’s right for you, it’s more important than ever to consider overall product design—megahertz alone does not tell the whole story.

*Based on Apple internal tests running 15 separate Adobe Photoshop filters.

**Based on Apple internal testing using MacBench 4.0 processor performance scores. Actual performance on applications may vary. MacBench is a subsystem-level benchmark that measures the relative performance of Mac OS–based systems.

Processor

card

 

 

 

CPU

Level

2 Cache

 

 

 

IIIIIIIIIIIIIIIIIIIIIIIIIII

System bus

PCI slots

Level 2 backside cache. By far the biggest boost to performance that the PowerPC G3 offers can be credited to its incorporation of an approach to level 2 cache memory known as backside cache. This approach effectively bypasses limitations on the speed at which transac- tions between the processor and the level 2 cache can occur. Earlier PowerPC processors used the system bus to access both the level 2 cache memory and the main memory, which could result in conflicts. For example, under the previous approach, at processor clock speeds above 200 megahertz, the CPU would often stall as it waited for data to arrive from the level 2 cache. To prevent such slowdowns, the PowerPC G3 processor features a new dedicated bus that handles only the CPU/cache transactions. This bus can operate at higher speeds than the system bus—speeds that relate incrementally to the clock speed of the processor. This enables the more effective use of level 2 cache, because even the relatively large amounts of data it can store can be accessed by the processor rapidly and efficiently. In fact, as clock speeds increase, so does the performance value offered by the backside cache design.

Large level 1 (on-chip) data and instruction caches. In comparison with the 8K on-chip caches incorporated into the design of the original PowerPC 603, the PowerPC G3 processor includes 32K of instruction cache and 32K of data cache, for a total of 64K level 1 cache. These relatively large on-chip caches support—and add to—the overall performance gains offered by the PowerPC G3 processor.

New manufacturing process. Finally, the industry-leading 0.25-micron process used to produce the PowerPC G3 processors does more than merely boost performance; it also enables the creation of smaller, cooler processors with extremely low power requirements. In essence, it represents a brand-new approach to chip design, one that brings workstation-class perfor- mance not only to desktop systems, but even to notebook computers—using the same processor.

Benefits to the user

As the PowerPC G3 processor becomes central to Apple system designs, increasing numbers of Macintosh users will enjoy these benefits:

Significant performance gains, which enhance the power available to handle such resource-intensive tasks as video editing, Internet authoring, and Windows emulation through software alone, rather than requiring more costly and complex hardware add-ons

Even more affordable higher performance—in particular, providing a radical improvement in the value proposition offered by our entry-level and midrange systems

• The ability to purchase a notebook system that can truly offer the performance of a desktop computer

The “why”

Backside Cache

The backside cache design allows the CPU to access the cache directly at speeds that vary proportionally to the CPU speed

The rationale for Apple’s introduction of the PowerPC G3 processor is strik- ingly simple. It’s the same concept that led us to embark on the PowerPC effort initially: At Apple, we are committed to developing and supporting processor technology that can offer our entire range of users truly outstanding perfor- mance—so they can spend less time dealing with the mechanics of computing and more time exploring their creative potential.

Apple Computer, Inc. 1 Infinite Loop Cupertino, CA 95014 (408) 996-1010 www.apple.com

© 1997 Apple Computer, Inc. All rights reserved. Apple, the Apple logo, Mac, Macintosh, PowerBook, and Power Macintosh are trademarks of Apple Computer, Inc., registered in the U.S.A. and other countries. Adobe is a trademark of Adobe Systems Incorporated. PowerPC is a trademark of International Business Machines Corporation, used under license therefrom.

November 1997. Product specifications are subject to change without notice. Printed in the U.S.A.

L02588A

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Contents Power Macintosh G3 Desktop Hot Issues Introduction Processor Module Vs. Card Shared Logic BoardProcessor Module Jumper Power Supply JumperPower Supply Voltage Setting Warranty StickerCard Voltage RegulatorSdram DIMMs ROM DimmSgram Video Memory Eide Bus IssueUltra Wide Scsi Cable Routing Master/Slave SupportDVD-ROM Disk Damage CD-ROM Ejection ProblemHFS+ Formatted Drives Power-On Issue Basics Overview Features of the Power Mac G3 Desktop include Page Optional Build-to-Order Power Mac G3 Desktop Features Data Buses Page Internal Buses on G3 Desktop Page Ultra Wide SCSI-3 Bus Narrow SCSI-1 BusPage Assigning Ultra Wide Scsi ID Numbers Eide Bus Connecting Eide Devices to the Logic BoardSupport for Master and Slave Page Configuring or Connecting Master/Slave Devices Page Page Ultra Wide Scsi Card Connecting Additional Internal DevicesSpecifications for the Ultra Wide Scsi Card SCSI-3 Bus Cable Length Limits Page 10/100 BaseT Ethernet Card Page DVD Discs DVD-ROM Drive TechnologyPage Video Page DVD Layers Page DVD Basics DVD-ROM Drive Technology Apple DVD-ROM Drive Specs Transfer Rate DVD Software Drivers Apple DVD-ROM UDF Volume AccessFile Management System Micro UDF & ISO9660 UDF Features Page FireWire Defined FireWire TechnologyPage Page Page Apple FireWire Digital Video Camera Card OUT Page Connecting the FireWire DVC Card Installing the FireWire Card Software Cuda Chip Resetting the Logic Board Page Sound Page Sound Output Sound Input Page Video Input and Output AV I/O Panel DAV Connector Voltage Switch Country Voltage Basics Voltage Switch PowerPC G3 and Backside Cache Sdram DIMMs Page Basics Sgram Video Memory Dimm Slots Peripheral Component Interconnect PCI Front View Rear View Internal Locator Logic Board Ordering Repair StrategyUSA Ordering Canadian Ordering US Only Warranty/AppleCare/ARISPower Graphics controller. Next Level Benefits to the user Specifications Spec Database at Service Source Online Take Apart Top Housing Left Right Tab Page Bezels Take Apart Bezels From the underside Chassis Latch Tab CD-ROM or DVD-ROM Drive Page Page Replacement Note Page Master/Slave Cable Routing Page Zip Drive Page Page Master/Slave Cable Routing Page Floppy Drive Page Take Apart Floppy Drive Flip open the chassis Support foot Take Apart Floppy Drive Disconnect the floppy Take Apart Floppy Drive Pull out on the plastic Take Apart Floppy Drive Drive Chassis Page Open/Remove Card Retainer Baffle To Open the Card Retainer Baffle To Remove the Card Retainer Baffle Open Internal Chassis Page Page Chassis Support Arm Hard Drive Page Page Drive Rails Take Apart Drive Rails Use a screwdriver to Push out the tab Power Supply Page Page Screw Chassis Support Arm Tab Page Page Page Speaker Take Apart Speaker Remove the two Torx Speaker Cable Power Actuator Power Actuator Processor Module Processor module wire Page Page Page Page Important If you are Page Take Apart Processor Module Page Battery Page Page PCI Cards Page Page Ultra Wide Scsi PCI Card Page Page Page Page Page FireWire PCI Card Page Take ApartFireWire PCI Card Page Page Take Apart Card Page Take ApartLogic Board Page Underneath. Be careful not Important There is a Page Page Page Rear Panel Replacement Note To Page Bottom Chassis Page Modem Card Page Upgrades PCI or I/O Cards Port Access Cover Screw Sheet Metal Align the card connector If you meet resistance Upgrades PCI or I/O Cards Close the expansion card Cover Open Chassis Memory-DRAM or VramTab Support Arm Hole in Chassis Floor Dram Upgrades Memory-DRAM or Vram Align Dimm notches with Vram Upgrades Memory-DRAM or Vram Align Sgram Dimm Close Chassis Upgrades Memory-DRAM or Vram Close expansion card Upgrades Modem Card Page Page Page Page Troubleshooting General Voltage Regulator New Components Theory of OperationProcessor Module Jumper Location J16 Jumper Location J28 Cards HFS+ Formatted Drives Page Page Cleaning Procedure for Card Connectors Verification Procedure Power Supply VerificationPage Power Supply 20-Pin Connector Page Page Page System Symptom ChartsLED Page Page Page System Page Error Chords Video Screen Page Floppy Drive Page Hard Drive Page Peripherals Page Page CD-ROM Drive Page Troubleshooting Symptom Charts/CD-ROM Drive Page Page Miscellaneous Exploded View Exploded View Power Macintosh G3 Desktop Screw Matrix Audio/ Video Card Turn on the computer and the audio equipment Connecting Video Equipment Connecting Video Equipment for Input to the Computer VCR Turn on the computer and the VCR or camera Connecting Video Equipment for Output From the Computer Video connection for output from the computer Connecting a Television Audio output Impedance 75 Ω source Update About Your Build-To-Order Macintosh Ultra Wide Scsi Hard Disk Drive and PCI Card About the Ultra Wide Scsi Bus RAID Disk Volume Management Software Bit 2D/3D Graphics Accelerator Card Video Memory Sgram Apple FireWire Card Apple FireWire Card Software DVD-ROM Drive
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G3 specifications

The Apple G3, introduced in 1997, marked a significant leap in Apple's computer technology and design philosophy. This series of Macintosh computers was powered by the PowerPC G3 processor, which had a clock speed ranging from 233 MHz to 750 MHz, depending on the model. The G3 chip was notable for its advanced features, including a 32 KB L1 cache and the ability to support a more complex 256 KB L2 cache. This allowed the machines to execute instructions more efficiently than their predecessors, enhancing overall performance for various computing tasks.

One of the defining characteristics of the Apple G3 line was its innovative design, which combined form and function. The desktop models featured a sleek, curving case, famously known as the "Blue and White" G3, while the all-in-one iMac G3 showcased vibrant colors and an iconic translucent design that became a hallmark of Apple devices.

The Apple G3 was notable for its extensive use of USB ports, which was a relatively new technology at the time. This foresight helped pave the way for the adoption of USB peripherals, allowing users to connect a wide range of devices, from printers to scanners, with ease. Additionally, the G3 series also provided options for expansion via PCI slots, giving users the flexibility to upgrade their systems.

In terms of graphics, the G3 models were equipped with accelerators like the ATI Rage or the NVIDIA Riva TNT, providing improved visual performance for both professional applications and gaming. This was complemented by Apple's decision to support higher screen resolutions and better color depth, enhancing the multimedia experience.

Moreover, the Apple G3 introduced the Mac OS 8 operating system, which brought improved multitasking capabilities and a more streamlined user interface. This allowed users to experience a more intuitive and productive computing environment.

Overall, the Apple G3 line represented a critical evolution in Macintosh technology. It combined powerful processing, innovative design, and new technologies that set the stage for future developments in the Apple ecosystem. The G3 series not only solidified Appleā€™s presence in the computing market but also laid the foundation for the modern computing experience that would follow in the ensuing years.