Apple Transwarp User Manual

TransWarp  
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About This Manual This manual tells you all about installing and using the Applied Engineering  
TransWarp accelerator card. To get the most out of your new TransWarp, please  
read this manual carefully. Here’s a summary of what is covered:  
Introduction:  
A brief overview of the TransWarp card and its features.  
Getting Started: What you need to know and do before installing the  
Trans Warp card in your system.  
Installation:  
How to configure and install the TransWarp card in your computer.  
How to activate and control the TransWarp card.  
Using TransWarp:  
This manual was written under the assumption that you are at least familiar with the  
operation of your computer. For more information on the basic operation and  
set-up of your system, please refer to the Apple Owner’s Manual for your  
particular computer.  
1
TransWarp  
Introduction  
The 6502 microprocessor, or Central Processing Unit (CPU), on an Apple II or //e  
computer, executes its instructions at a rate of 1 MHz. (One megahertz or one  
million times a second.) TransWarp puts the Apple’s microprocessor to sleep,  
while doing some special tricks with its on-board memory, and uses its own high  
speed microprocessor chip to increase the processing speed to 3.6 MHz! It’s as  
simple as that.  
Here’s a list of some of the TransWarp’s features:  
• 65C02 microprocessor running at a 3.6 MHz clock rate.  
• 256K of ultra-fast Random Access Memory (RAM).  
• Acceleration of programs running in both main and auxiliary memory.  
• Totally transparent operation with all Apple software.  
• Other than obviously increased speed, operation is also transparent to the  
user.  
• Can be installed in an Apple II, II+, IIe, or Enhanced //e.  
• Compatible with virtually all interface and expansion cards for the Apple.  
• Three speed settings. 1 MHz, 1.7 MHz, and 3.6 MHz.  
• Can be controlled from hardware or software. (No preboot disk is needed.)  
• Low power design for cool operation.  
• Works with all Apple software, including AppleWorks, SuperCalc 3a, and  
Applied Engineering’s RamDrive™ programs for DOS 3.3, ProDOS, and  
Pascal.  
Expandability. Accelerated 16 Bit option available from Applied Engineering.  
2
TransWarp  
Before the TransWarp card is installed in the computer, some of the switches on  
the TransWarp card may need to be changed to accommodate the timing needs  
of the other cards installed in your system.  
Getting Started  
TransWarp will work with all standard peripheral cards, such as expanded memory  
cards, printer and modem interfaces, clock cards, 80 column cards, mouse cards,  
and disk drive controllers. Some of these cards, though, may not operate as  
expected at the higher TransWarp speeds. By setting the switches on the  
TransWarp card, you can tell the TransWarp’s circuitry which cards, in which slots,  
require the 1 MHz clock rate. This will allow TransWarp to slow down to the  
Apple’s clock speed momentarily when those cards are accessed by the  
software. This has a very small effect on the overall TransWarp speed, since  
these interfaces are accessed for very short periods of the computer’s time.  
TransWarpmustbe specially configured to be compatible with memory expansion  
cards which install in the Apple’s expansion slots (zero through seven) and use  
the $D000 to $FFFF “language card bank switching technique” to expand the  
Apple’s memory. For details on the operation of your memory card, refer to its  
instruction manual. Newer expansion slot memory expansion cards do not use  
this technique. The procedure for configuring the TransWarp card for expansion  
slot memory card compatibility is explained in the next section.  
Due to the number and variety of expansion and interface cards available, it is  
impassible to list which cards require the 1 MHz clock rate. Without a great deal of  
technical information, it is also impossible to determine which cards will or won’t  
work at TransWarp speed. Generally, most floppy disk controllers, serial  
printer and communications interfaces, and clock cards do require the  
1 MHz timing signal. Parallel printer interfaces, hard disk controllers,  
80 column cards, and mouse cards usually will operate correctly at full  
TransWarp speed.  
The simplest method of determining the timing signal requirement of a card is to  
try it at TransWarp speed. If it doesn’t work properly, set the appropriate  
TransWarp switch to slow down for that expansion card slot. The instructions for  
setting these switches are in the next section.  
Note: TransWarp was designed to be very power efficient, but like all  
accelerator cards, it draws a fair amount of power and generates heat.  
Applied Engineering recommends the use of a cooling fan, such as the  
Kensington Microware System Saver®, especially when the TransWarp  
is installed in a lie with the newer style case. These specially designed  
fans are available from many computer dealers.  
3
TransWarp  
TransWarp Installation  
Procedure  
Don’t ZAP your TransWarp! Some components on the TransWarp card  
are especially static sensitive. Even a small electro-static discharge  
could damage one of TransWarp’s integrated circuit “chips”. A damaged  
“chip” might not fail right away, but over time it could become worse,  
possibly causing one of those nasty “intermittent” problems. Be very  
careful to handle the TransWarp card ONLY by the edges. Don’t touch  
the gold edge-connector or any of the components on the TransWarp  
card other than the switches. Leave the TransWarp card in its anti-static  
bag until instructed to remove it.  
Step 1  
Leave your computer plugged in, but switch the computer power switch to the  
OFF position. Remove the top lid of the computer and set it aside. Verify that the  
red power-on indicator light inside the computer is OFF. (The indicator light is on  
the main logic board, near the back, just next to the power supply.)  
Step 2  
Discharge any static electricity that may be on your body or clothing by gently  
touching the metal power supply case.  
Step 3 Carefully remove the TransWarp card from the anti-static bag. Put the bag flat ona  
table and set the TransWarp card on the bag.  
Step 4  
Locate the two blocks of switches along the bottom edge of the TransWarp card.  
Block 1 is the one on the left; block 2 is the one on the right. Use the instructions  
below, and the chart in Figure 1 to determine the appropriate switch settings for  
the cards installed in your computer. An example switch configuration for an  
Apple lle system is shown in Figure 2.  
To change a switch setting you would “flip” the rocker switch, by pressing in at the  
top or bottom of the rocker, just like you would a rocker-type household light  
switch. Pressing in at the bottom of the switch, nearest the word “OPEN”, will  
OPEN the switch. Theswitch canbe moved to the CLOSED position by pressing  
in at the top of the rocker, nearest the numbers along the top of the switch block.  
Never use a pen or pencil to change a switch setting; use a small pointed object,  
like a wooden toothpick or a bent-out paper clip. See Figure 2.  
Switches 1 through 7 on each block are numbered and correspond to expansion  
slot numbers 1 through 7, respectively. On switch block 1, set the appropriate  
switch to the OPEN position for any slot with an expansion slot memory card  
using the “language card bank switching technique” described in the previous  
section. On switch block 2, set the appropriate switch to the OPEN position for  
any slot with an interface card that requires the 1 MHz timing sign al. A switnch in  
the CLOSED position selects full TransWarp mode for the corresponding  
expansion slot. Switches on either bank, corresponding to EMPTY slots, should  
be switched to the CLOSED position. If you’re not sure if a card requires the 1  
MHz rate, try it at TransWarp speed and see if it works.  
4
TransWarp  
_
Switch 8 on both blocks are used in combination to select the default TransWarp  
speed. These switches should both be in the OPEN position for Full Warp  
speed. If switch 8 of block 2 is CLOSED, the setting of switch 8 of block 1 is  
ignored by the TransWarp circuitry. Figure 1 shows the possible combinations  
and the corresponding TransWarp speeds.  
Figure 1 TransWarp Switch Blocks  
BLOCK 1  
Memory Card  
slots  
BLOCK 2  
Periferal Card  
slots  
Full TransWarp (3.6 MHz)  
OPEN....................................................OPEN  
Half TransWarp (1.7 MHz) CLOSED..................................................OPEN  
Normal Apple (1 MHz)  
Normal Apple (1 MHz)  
OPEN................................................... CLOSED  
CLOSED................................................ CLOSED  
Figure 2 Sample Switch Configuration for Apple //e System  
BLOCK 1  
BLOCK 2  
Press switch  
here to OPEN  
Press switch  
here to CLOSE  
System Configuration:  
TransWarp Switch Settings:  
Slot 1  
Slot 2  
Slot 3  
Slot 4  
Slot 5  
Slot 6  
Slot 7  
Parrallel Printer Interface Card Block 2, Switch 1 CLOSED  
Serial Interface Card  
TransWarp  
Block 2, Switch 2 OPEN  
Block 2, Switch 3 CLOSED  
Block 2, Switch 4 OPEN  
Block 1, Switch 5 OPEN  
Block 2, Switch 6 OPEN  
Block 2, Switch 7 CLOSED  
Clock Card  
Bank Switch Memory Card  
Floppy Disk Controller  
Empty  
5
TransWarp  
Step 5  
Plug the TransWarp card in the expansion slot of your choice. If you are installing  
TransWarp in an Apple //e, slot 3 is recommended. If you have an Apple II or II+,  
slot 0 is the recommended slot. Since TransWarp also emulates the Apple II  
language card, which is usually installed in slot 0, the language card is not  
required when the TransWarp card is active. If you rearrange the cards in your  
system, be sure to set the TransWarp switches accordingly.  
Step 6  
Replace the top lid of the computer. Installation is complete.  
Using TransWarp  
When the computer power is turned on, TransWarp is automatically activated. As  
the TransWarp firmware is “booted-in” the Apple’s speaker will emit a short  
(accelerated) “beep”, the “TRANSWARP™” logo will then be displayed on the  
screen momentarily, followed by another high pitched “beep” from the Apple’s  
speaker, as the Apple’s firmware is “booted-in.” TransWarp will then accelerate  
any Apple software run on the system. Except for speed, TransWarp will be  
completely transparent to the user and the software.  
The only way to activate TransWarp is by powering-up, or “cold-booting”, the  
computer. Occasionally, it may be desirable to run some video demonstration  
programs, games,sound synthesis programs, or other programsat normal Apple  
speed or at a slower accelerated rate. This can be accomplished through  
hardware commands, software commands, or a combination of both.  
Hardware Control  
To disable the TransWarp completely, immediately after power-up, press the  
ESCape key while the “TRANSWARP™” logo is still displayed on the screen.  
The system will continue to boot normally and run at the normal Apple speed of 1  
MHz, using the Apple’s processor and memory.  
IMPORTANT: If your TransWarp card is installed in slot zero of an  
Apple II, disabling the TransWarp card will also disable the TransWarp’s  
language card feature. If you encounter this situation, install your  
language card in slot zero and the TransWarp in another available slot.  
Remember, the initial speed of the TransWarp is determined by the two number  
eight switches on the TransWarp card and is indicated to the user by the relative  
pitch of the speaker’s “beep” at power-up. For example, if switch 8 of block 1 is  
CLOSEDandswitch 8 of block 2 is OPEN,ht e maximum TransWarp speed will be  
slowed to 1.7 MHz. Thebeep” of the speaker will be slightly lower pitched at this  
rate.  
6
TransWarp  
Software Control Programmers can also control TransWarp from within their programs by writing a  
specific value to a certain memory location.  
This location, expressed in  
hexadecimal notation, is $C074, and in decimal notation, 49268 (-16268 Integer  
BASIC complement). The valid values which can be written to this location are 0,  
1, or 3. A zero enables the maximum hardware default speed. A one will cause the  
TransWarp card to run at 1 MHz. Writing a three will disable the TransWarp card  
completely and pass processing control to the Apple’s processor until the  
TransWarp is again activated by cold-booting the system.The following example  
Applesoft BASIC program line will slow the TransWarp to the 1 MHz clock rate.  
]10 POKE 49268,1  
Accesses to the Apple’s RAM and ROM are restricted to the Apple’s clock rate of  
1 MHz; therefore, on power-up, TransWarp loads the Apple’s ROM into its RAM,  
and uses the rest of its RAM to emulate most of the Apple’s main and auxiliary  
memory, running at accelerated speed. The Apple’s memory is used only for  
video display of text and graphics, which requires the 1 MHz rate. This can cause  
some video- intensive programs to run slightly slower than full TransWarp speed.  
TransWarp does not use the memory cache-ing technique to increase  
processing speed. All processing in main and auxiliary memory is accelerated.  
This is a great advantage to users of memory expansion cards which install in the  
Apple //e’s Auxiliary Slot, such as Applied Engineering’s RamWorks and  
RamWorks II cards. All accesses to these cards are at TransWarp’s accelerated  
speed. Using RamDrive software to use the accelerated extended memory as an  
emulated disk drive, disk-access-intensive programs loaded to and executed  
from a RamDrive will run appreciably faster.  
CP/M Software  
Z-80 cards which have their own memory and do not use the Apple’s direct  
memory access (DMA) bus, will function (at normal speed) with the TransWarp  
card active. Since processing for the CP/M software is being done by the Z-80,  
TransWarp’s 65C02 will not accelerate CP/M programs.  
Some Z-80 cards use the Apple’s DMA bus to access the Apple’s memory. The  
TransWarp card must be deactivated before running CP/M software on Z-80 cards  
which do use the DMA bus. TransWarp can be deactivated during a CP/M cold  
boot by depressing the ESC key during power-up. (See the section entitled  
“Hardware Control.”)  
7

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