electronic etch-a-sketch project
DESCRIPTION
Electronic Etch-a-Sketch Project. Project Concept and Background Checkpoint Structure Bells and Whistles. Objectives. Broad “brush” overview of the project Details will be covered in the lab lectures - PowerPoint PPT PresentationTRANSCRIPT
CS 150 - Fall 2005 – Lec. #12: Course Project - 1
Electronic Etch-a-Sketch Project
Project Concept and Background Checkpoint Structure Bells and Whistles
CS 150 - Fall 2005 – Lec. #12: Course Project - 2
Objectives
Broad “brush” overview of the project
Details will be covered in the lab lectures
NOTE: anything discussed in the lab lectures and project checkpoint write-ups supercedes what I describe here! The TAs know the project better than I do!
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Electronic Etch-a-Sketch
AKA an electronic “paint” machine …
Recent CS 150 projects: network streaming audio, network digital “telephone”, pong, video image processing, … audio and/or video a common theme
This is a good CS 150 project because … It is NOT a processor architecture (take CS 152 for that!) Vast majority of digital designs involve interfacing with the real
world, with real world timing constraints! Hardware Systems: Input, Processing, Output
Pen/brush position/size (and special effects) inputs State of the screen in frame buffer in SDRAM Modified by drawing semantics Refresh LCD screen from frame buffer in SDRAM
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Electronic Etch-a-Sketch
Implement this … with this …
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Flash Card & Micro-drive Port
Video Encoder & Decoder
AC ’97 Codec & Power Amp
Video & Audio Ports Four 100 Mb Ethernet Ports
8 Meg x 32SDRAM
Quad Ethernet Transceiver
XilinxVirtex 2000ESeven Segment
LED Displays
Prototype Area
Calinx Board
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Calinx Board
Etch-a-Sketch Block Architecture
Checkpoint #1:N64 Game Controller
Interface
Checkpoint #2:NTSC Video
Checkpoint #3:SDRAM
ControllerArbiter
Checkpoint #4:Paint Engine
Cursor PositionCursor SizeBrush Color P
ain
t E
ngin
e-
SD
RA
M Inte
rface
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Checkpoint #1: N64 Interface
This week in lab! Continually poll N64 and report state of buttons and analog
joystick Issue 8-bit command Receive 32-bit response
Each button response is 32 bit value containing button state and 8-bit signed horizontal and vertical velocities
Serial interface protocol Multiple cycles to perform each transaction
Bits obtained serially--UART-like functionality Framing (packet start/stop) Bit encoding
start | data | data | stop
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Checkpoint #2: Video Encoding Pixel Array:
Digital image represented by matrix of values, where each is a function of the information surrounding it in the image; single element in image matrix: picture element or pixel (includes info for all color components)
Array size varies for different apps and costs: some common sizes shown
Frames: Illusion of motion created
by successively flashing still pictures called frames
High-Definition Television (HDTV), 2 Mpx
Workstation, 1 Mpx
PC/Mac, 1‡2 Mpx
Video, 300 Kpx
SIF,82 Kpx
High-Definition Television (HDTV), 1 Mpx
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Checkpoint #2: Video Encoding
Video details fairly complex and involve many choices: NTSC vs. PAL, HDTV, … Interleaved even-odd frames (TV) vs. progress scan (computer
and digital displays) Frame size, frame rate Pixel encodings: RGB, YUV/YCB (Luminance, Chrominance --
brightness plus color difference signals) Subsampling to reduce data demands (compression trick) Inputs: ITU-R BT.601 Format (Digital Broadcast NTSC) Outputs: Component video, S-video to drive LCDs in lab Fortunately, Calinx board has a chip on-board that deals with
much of the grungy details …
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ITU-R BT.656 Details Interfacing details for ITU-601
Pixels per line 858Lines per frame 525Frames/sec 29.97Pixels/sec 13.5 MViewable pixels/line 720Viewable lines/frame 487
With 4:2:2 chroma sub-sampling, send 2 words/pixel (Cr/Y/Cb/Y)
Words/sec = 27MEncoder runs off a 27MHz clock
Control info (horizontal & vertical synch) is multiplexed on data lines
Encoder data stream show to right
See video tutorial documents on course documentation web page!
718 719 720 721 0 1 2
359 360 0 1
359 360 0 1
736732( )
368366( )
368366( )
857863)(
Y 718
Y 719
C 360
B Y 720
C 360
RY 721
C 359
BC 359
RY 736(732)
C 368(366)
BC 368(366)
RY 855(861)
C 428(431)
BY 856(862)
Y 857(863)
C 0B
Y 0
C 0R
Y 1
C 428(431)
R
C 0B
Y 0
Y 1
C 0R
C 359
BY 718
Y 719
C 359
R
Last sampleof digital active line
Sample datafor O instant
First sampleof digital active lineH
Luminancedata, Y
Chrominancedata, CR
Chrominancedata, CB
Replaced bytiming reference
signal
Replaced bydigital blanking data
Replaced bytiming reference
signal
End ofactive video
Start ofactive video
Timing reference signals
Note 1 – Sample identification numbers in parentheses are for 625-line systems where these differ from those for 525-line systems. (See also Recommendation ITU-R BT.803.)
FIGURE 1
Composition of interface data stream
D01
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Checkpoint #2: Video Encoder
Paint engine processes pixels within frame buffer Drive ADV7194 video encoder device to output correct NTSC video Gain lots of experience reading data sheets Dictates the 27 MHz operation rate
Used throughout graphics subsystem
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Calinx On-Board Video Encoder Analog Devices ADV7194: ITU 601/656 in, Composite Video
Out
Supports: Multiple input formats and outputs Operational modes, slave/master Used in default mode: ITU-601 as slave
s-video output
Digital input side connected to Virtex pins
Analog output side wired to on board connectors or headers
I2C interface for initialization: Wired to Virtex
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Checkpoint #3: SDRAM Interface
Memory protocols Bus arbitration Address phase Data phase
DRAM is large, but few address lines and slow Row & col address Wait states
Synchronous DRAM provides fast synchronous access current block Little like a cache in the DRAM Fast burst of data
Arbitration for shared resource
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Checkpoint #4: Paint Engine
Fed a series of “brush” strokes and effects Defined by color (including erase), brush shape (height, width),
etc. Current brush positions All from N64 Controller interface NOTE: lots of buttons, and lots of opportunity for extra credit
brush effects
Renders “paint” into frame buffer within range of pixels at current cursor position
Must arbitrate for SDRAM and carry out bus protocol Paint engine overlaps writing SDRAM with video interfacing
reading SDRAM to drive LCD display Continuously feeding video interface from SDRAM subject to
timing specifications
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Checkpoint Structure and Schedule
Checkpoint #1: Game Controller Interface (Week 7)
Checkpoint #2: LCD Interface (Week 8)
Checkpoint #3: Memory Interface (Week 9, 10 -- Spans Midterm II)
Checkpoint #4: Paint Engine/Integration (Week 11, 12, 13+)
Early Check-off: Wednesday before Thanksgivings (November 23)
Standard Check-off: Wednesday, November 30
Project Final Report: December 7
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Possible Bells and Whistles
Still thinking about this but here are some ideas;These are mostly implemented in the paint engine … Brush sound effects Brush effects, like spray paint, splashes, etc. Brush shapes, like square, oval, triangle Brush physics, soft vs. hard brush, brush angle, etc. (e.g.,
Japanese caligraphy) Color mixing rather than overwrite Your good idea here NOTE: We don’t necessary know how to implement these
ourselves! NOTE: extra credit will be limited to 20% extra points and no
extra credit unless the standard functionality works