MNT ZZ9000 R-2 Instruction manual
MNT ZZ9000 R2 Quickstat Manual
Dear MNT Customer,
Thank you for purchasing the MNT ZZ9000 Graphics Coprocessor Card (with
Ethenet and USB Storage) for Commodore Amiga computers. This product was
made possible by your suppot.
Package Contents
• MNT ZZ9000 Zoro card 1 with mounting bracket and
128MB MicroSD card 4 containing ZZ9000OS
• MNT ZZ9000CX ECS/AGA Video Slot adapter 2
• Video Slot ibbon cable for connecting both cards 3
• This manual
Waranty
MNT Research covers the waranty to the extent required by law for the unmodified
product. ZZ9000 is based on a reconfigurable Xilinx ZYNQ Z7020 FPGA that can be
updated by the user and reprogrammed to enable new functionality. Waranty does
not cover user supplied fimware or any modifications made to the card, nor does it
cover any damage by inseting it into a computer or other user supplied device. Use
at your own isk!
Declaration of Confomity
MNT ZZ9000 may only be operated in a shielding steel enclosure.
MNT Research assures that the included product complies with the require‐
ments of the following applicable European Directives and DIN standards:
EMC Directive 2014/30/EU, Low Voltage Directive 2014/35/EU
RoHS Directive 2011/65/EU
DIN EN 55022201112
DIN EN 55024201605
DIN EN 61000612007
DIN EN 61000632007/A12011/AC2012
DIN EN 61000322014
DIN EN 61000332013
Lukas F. Hatmann, Managing Director
MNT Research GmbH
Januay 6th, 2020
Hardware Installation
1. Connect the Video Slot ibbon cable by inseting one end into the 34 pin socket
of ZZ9000 and the other end into the 34 pin socket of ZZ9000CX.
2. Inset ZZ9000 into any of the Zoro slots of your Amiga 2000/3000/4000.
3. Inset ZZ9000CX into the Video Slot of your Amiga. In Amiga 2000, the Video
Slot is on the ight side of the power supply. In Amiga 3000, the Video Slot is
located next to the top Zoro slot on the daugtherboard. In Amiga 4000, the Video
Slot is next to the bottom Zoro slot on the daughterboard.
There are two distinct fimware BOOT.bin) files for Zoro II and Zoro III suppot.
ZZ9000 ships with the fimware that you selected when ordeing. To change it, just
download a new fimware file and copy it to the MicroSD card inseted in ZZ9000.
Software Installation
1. Install the RTG ReTargetable Graphics) system. There are two options:
• Picasso96 on Aminet: http://aminet.net/package/diver/video/Picasso96
• P96 2.x by Individual Computers (recommended). To purchase a license, first
register an account in their shop. More infomation: http://wiki.icomp.de/wiki/P96
When installing Picasso96/P96, select only the Altais card. The ZZ9000 Installer will
copy it to create its own Devs:Monitors/ZZ9000 diver file.
2. ZZ9000 implements a SANAII compatible network card that you can use to go
online with TCP/IP stacks such as Miami or Roadshow. Make sure you have such a
TCP/IP stack installed before installing the network diver.
3. Double click “Install ZZ9000” from the ZZ9000 Install package available from our
website or on floppy disk from our online shop. The ZZ9000 Installer will guide you
through all steps necessay to set up the graphics and network functions.
4. After rebooting, you will be able to select high resolution 8/16/32 bit screen
modes using ZZ9000's display engine. Native Amiga chipset screen modes will be
automatically scan-doubled and flicker-fixed via ZZ9000CX.
5. You can use a USB stick to exchange files between your Amiga and other
computers via ZZ9000USBStorage.device included in the Installer. On your PC,
create patitions 4GB recommended) and fomat the stick on your PC to FAT32.
Plug the stick into ZZ9000's USB pot before switching on the Amiga (or resetting).
Use fat95 and MountDos to easily mount the USB patitions:
• http://aminet.net/package/disk/misc/fat95 Copy fat95 to L
• http://aminet.net/package/disk/misc/MountDos12 Copy mountdos to C
Enter in a Shell: mountdos ZZ9000USBStorage.device fat95 mount
Running ARM Software
ZZ9000 has two 32-bit ARM Cotex-A9 processor cores that un at 666 MHz. The
system has access to 1 GB of DDR3 memoy in total. A pat of this memoy is di‐
rectly shared with the Amiga's chipset and 68000 familiy processor via the Zoro
Bus. The Amiga RTG screens also occupy the same memoy space, so both ARM
and Amiga can draw pixels into graphics memoy or read from it.
Nomally, a mini operating system called ZZ9000OS is unning on ARM Core 1, and
ARM Core 2 is idle. ZZ9000OS has the following functions:
• Polls the Zoro bus in the FPGA fabic for events (wites, reads, or Amiga reset)
• Receives and transmits Ethenet packages
• Controls the DVI transmitter
• Controls the USB pot
• Executes accelerated RTG drawing functions like fills, scrolling, text, pattens
You can un custom code on ARM Core 2 by loading it into a place in shared memoy
and asking ZZ9000OS to jump into the code. On the ZZ9000 website (https://
mntre.com/zz9000 you can download example progams and a simple SDK for
witing your own ARMv7 applications, as well as the sources for ZZ9000OS.
Updating FPGA Fimware and ZZ9000OS
Development of ZZ9000 has taken almost two years, and it was our pioity to get
the hardware into your hands as soon as possible while deliveing a good feature
set to begin with. But ZZ9000 is highly extensible and open source. In addition to us
deliveing new features for the card, we believe that the hackers and makers among
you will come up with fantastic new software and ideas to un on ZZ9000.
The ZYNQ on ZZ9000 boots from the inseted MicroSD card. This card needs to be
MBR patitioned and FAT32 fomatted. The system looks for a file called BOOT.bin
which contains the ZYNQ FSBL (first stage boot loader) that in tun loads the FPGA
image and ZZ9000OS (in ELF fomat). To update the card, you simply have to re‐
place the BOOT.bin file with a new one.
Jumpers and Headers
J1 JTAG. You can debug and reprogram
both FPGA and ARM through JTAG via a
Xilinx Platfom Cable or similar and using
free Xilinx Vivado Webpack software.
J4 Inteupt select. Connects either
Amiga inteupt INT2 or INT6 to the
FPGA. Leave the jumper on INT6 to use
Ethenet.
J13 Boot select. 24 Boot from
MicroSD card. This is the default and
should nomally not be changed. If you
remove this jumper, the system will boot
from a small QSPI flash ROM on the ZYNQ
module. A minimal Linux distibution is
installed for testing. Don't do this with
ZZ9000 inside of your Amiga, because
the I/O pins of the FPGA won't be
configured without a corect boot image.
J12 UART. Connect a USB-to-UART
cable to RX, TX and GND pins 115200
baud) to see ZZ9000's debug output.
J6 Audio. Breaks out the the raw and
filtered audio signals of the video slot for
use in future sound expansions.
J10 FPGA Expansion. 10 additional
unused FPGA inputs/outputs for later use.
J5 MIO. Breaks out 8 unused ZYNQ MIO
pins. Reseved for later use, not shown
here.
J7 Digital Audio Input for the video
encoder chip. Reseved for later use, not
shown here. Introduced in R2.
N/A
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DDR3 Stat, ZZ9000OS Code
ZZ9000 ARM Registers
ZZ9000 FPGA Registers
Ethenet and USB Buffers / Scratch Space
Framebuffer Memoy Stat
Zoro 2 Accessible Space End 4 MB
ARM Application and General Purpose Shared
Space Stat
Zoro 3 Accessible Space End 256 MB
DDR3 End 1 GB
ARM Address Amiga Address*Area
Your unique Ethenet MAC address is: F
MAC addresses for ZZ9000 are sponsored by grandcentix.
Visit https://grandcentix.team for exciting career oppotunities.
Get Updates and Source Code at:
https://mntre.com/zz9000
Need Help? Wite to
Join our IRC channel #mnt-amiga on
irc.freenode.net
*Relative to card address **Curently unreachable on Zoro 2 machines,
update coming
MNT Research GmbH
Fehlerstr. 8, 12161 Berlin
WEEE DE 33315564
https://mntre.com
