1. Zynq-7000 EPP Introduction Where ARM Processors Meet HW Programmability
May 2012

2. Demands of Today's Technology
EPP
FPGA
ASSP
Structured
ASIC
ASIC
Which Technology Should I Choose?

3. Current Selections Equal Compromise
ASIC
ASSP
2 Chip Solution
Performance + 
Power -
Unit Cost
TCO
Risk
TTM
Flexibility
Scalability
+ positive, - negative,  neutral
Conflicting Demands Not Served

4. Introducing the Zynq™-7000 EPP
Breakthrough Processing Platform
Higher system performance, lower total power
Flexible and scalable solution
Industry Standard Design Environments
Well defined SW programming model
Familiar SW & HW design flows
Flexible Accelerators and IP
World class 28nm programmable logic architecture
Standard AMBA® 4 AXI interfaces
Broad Ecosystem Support
Tools, OS’s & IPs
Middleware, codecs
System integrators and training partners.
Familiar Processing System + Scalable Programmable Logic

5. Zynq-7000 Extensible Processing Platform
Next level of Programmable System Integration into a true SoC
All programmable (software and hardware) processing platform
ARM Cortex™-A9 MPCore™ Processing System with hardened peripherals, ADC and 28nm scalable optimized programmablel ogicc
Increased System Performance
800 MHz, dual core processors with NEON and vector floating point units
7 series programmable logic (PL) with built-in DSP
High bandwidth, low latency connects enable acceleration of key functions
BOM Cost Advantage in an cost optimized 28nm platform
Integration saves components, area and simplifies PCB
Platform approach enables aggregation of volumes over several projects
Lower Total Power solution
Industry-leading ARM processors maximize MHz/W and low power states
28nm HPL process and Integration provides ultra-lower power data transfers
Accelerated Design Productivity for TTM and TIM advantage
Industry standard HW and SW development tools for fast Time-To-Market
Flexible and scalable platform enables extended Time-In-Market
Extensive ecosystem of tools and solutions partners

6. Zynq-7000 Family Highlights
Complete ARM®-based Processing System
Dual ARM Cortex™-A9 MPCore™, processor centric
Integrated memory controllers & peripherals
Fully autonomous to the programmable logic
Tightly Integrated Programmable Logic
Used to extend processing system
High performance AXI based Interface
Scalable density and performance
Flexible Array of I/O
Wide range of external multi-standard I/O
High performance integrated serial transceivers
Analog-to-Digital Converter inputs
7 Series
Programmable Logic
Common Peripherals
Custom
Peripherals
Common Accelerators
Custom Accelerators
Common
Processing System
Memory
Interfaces
ARM®
Dual Cortex-A9 MPCore™ System
Software & Hardware Programmable

7. Zynq-7000 Device Portfolio Summary Scalable Platform offers easy migration between devices
Zynq-7000 EPP Devices
Z-7010
Z-7020
Z-7030
Z-7045
Processing System
Processor Core
Dual ARM® Cortex™-A9 MPCore™
Processor Extensions
NEON™ & Single / Double Precision Floating Point
Max Frequency
800MHz
Memory
L1 Cache 32KB I / D, L2 Cache 512KB, on-chip Memory 256KB
External Memory Support
DDR3, DDR2, LPDDR2, 2x QSPI, NAND, NOR
Peripherals
2x USB 2.0 (OTG), 2x Tri-mode Gigabit Ethernet, 2x SD/SDIO, 2x UART, 2x CAN 2.0B, 2x I2C, 2x SPI, 4x 32b GPIO
Programmable Logic
Approximate ASIC Gates
~430K (30k LC)
~1.3M (85k LC)
~1.9M (125k LC)
~5.2M (350k LC)
Extensible Block RAM
240KB
560KB
1,060KB
2,180KB
Peak DSP Performance (Symmetric FIR)
58 GMACS
158 GMACS
480 GMACS
1080 GMACS
PCI Express® (Root Complex or Endpoint) -
Gen2 x4
Gen2 x8
Agile Mixed Signal (XADC)
2x 12bit 1Msps A/D Converter
I/O
Processor System IO
130
Multi Standards 3.3V IO
100
200
212
Multi Standards High Performance 1.8V IO
150
Multi Gigabit Transceivers 4 16

8. Delivering Highest Customer Value
Build better processing systems with fewer chips … faster
Build better systems faster
Increased System Performance
BOM Cost Reduction
Total Power Reduction
Accelerated Design Productivity
Programmable Systems Integration

9. Programmable Systems Integration
Increased System Performance
BOM Cost Reduction
Total Power Reduction
Accelerated Design Productivity
ALL Programmable Platform Integrating Multiple Components
Hardware and Software programmable
Board component reduction
Security & reliability
Manufacturing benefits
Defines Extensibility
Create custom, flexible ASSP
Co-processing offload by accelerating software functions
ARM Programmability + FPGA Flexibility in a Single Chip

10. Increased System Performance
Programmable Systems Integration
Increased System Performance
BOM Cost Reduction
Total Power Reduction
Accelerated Design Productivity
Hardware Performance
Dual Core ARM Cortex A9’s with NEON and vector floating point
High performance programmable logic
Tightly coupled processor and programmable logic
High throughput / low latency
Massive parallel DSP processing
High performance I/Os and transceivers (12.5Gbps)
Accelerating Processor Performance
Increasing software performance through co-processing accelerators
Low latency interfacing for efficient co-processor implementation
Elements
Performance (up to)
Processors (each)
800 MHz
Processors (aggregate)
4000 DMIPs
DSP (each)
600MHz
DSP (aggregate)
1080 GMACs
Transceivers (each)
12.5Gbps
Transceivers (aggregate)
200Gbps
SW Acceleration using PL
>10x
Optimized Balance of Performance and Power

11. Platform approach enables aggregation of volumes for lower price
BOM Cost Reduction
Programmable Systems Integration
Increased System Performance
BOM Cost Reduction
Total Power Reduction
Accelerated Design Productivity
Reduced Devices per Board
Processors, PLDs, DSPs
A/D converters
Power supplies, fans, etc…
Reduced PCB Complexity
Fewer traces/interconnect/layers
Fewer power supplies
Smaller overall PCB
In System Reconfiguration Combines Multiple Device Functions
HW can be configured and reconfigured only with the needed function at a given time
PS Aggregates Numerous IP Royalties for Net Cost Benefit
ASIC or full FPGA solutions would require purchase of these IPs from 3rd parties.
Up to 40% BOM Cost Reduction vs. Multi-Chip Solutions
Platform approach enables aggregation of volumes for lower price

12. Significant Power Reduction at the System Level
Total Power Reduction
Programmable Systems Integration
Increased System Performance
BOM Cost Reduction
Total Power Reduction
Accelerated Design Productivity
Flexible/Tunable Power Envelope
Adjustable processor speed
Adjustable ARM AMBA®- AXI & memory
speeds
ARM low power states
Programmable logic can be turned off
Programmable logic clock gating
Partial reconfiguration to reduce Programmable logic requirement
Integration Power Reduction
Reduced interconnections between devices
Fewer system devices
Lower programmable logic power (28nm HPL process)
Up to 50% Lower Power
Vs. Multi-Chip Solutions
Significant Power Reduction at the System Level

13. Accelerated Design Productivity
Programmable Systems Integration
Increased System Performance
BOM Cost Reduction
Total Power Reduction
Accelerated Design Productivity
Reduced Time To Market
Fixed processor system across family
Scalable optimized architecture for IP re-use / AXI interfaces for plug & play IP
Accelerate developments with targeted design platforms
Increased Time In Market
Software and hardware re-programmability
Field upgradable
Address ASSPs short shelf life
Industry Leading Tools
Development tools
Xilinx platform studio (XPS), software developers Kit (SDK), IDS for programmable logic development and PS configuration
Support for 3rd party SW tools – (any Cortex-A9 tool should just work)
Development platforms
Emulation platform, virtual platform, development boards
Extensive Ecosystem
Strong and rapidly growing global partner and other 3rd party support
Industry leading OS’s, tools, IP, system integration/design houses
Dev.
Design #1
Platform #1
Design #3
Design #2
ASIC /
ASSP /
2 Chip
EPP
Extended Product life

14. Zynq-7000 EPP Value Proposition
ASIC
ASSP
2 Chip Solution
Zynq-7000
Performance + 
Power -
Unit Cost
TCO
Risk
TTM
Flexibility
Scalability
+ positive, - negative,  neutral
Conflicting Demands Now Served by the Zynq-7000 Family

15. Designing with Zynq-7000 EPP

16. Zynq-7000 EPP Platform Offering
Applications
Libraries & APIs
Custom
OS BSP’s
OS Kernel High Level and Low Level Drivers
Reference Design & Board
Virtual Platform
Processing System
Programmable
Logic
Silicon
SW Development
Tools
SW & HW IP
HW Development
Tools
More Than Just Silicon – A Comprehensive Platform Offering.

17. Developments Environments
End-to-End Tools
Xilinx SDK
ARM Ecosystem
Open Source
Huge SW Base
Xilinx
ARM libraries
RTOS and OS vendors
Middleware
Industry-leading Tools
High Level Synthesis
VHDL/Verilog: From Design Entry to Implementation
Simulation
Timing, power, signal analysis
Many Sources of HW IP
Xilinx Library
3rd Party
Custom
High Level Functions
Standardized around AXI

18. Zynq-7000 EPP SW Development Environment
ARM-standard Development with Xilinx Flexibility
Standard ARM Instruction Set and APIs
AXI support
Easy software migration from other ARM-based systems
Leverage ARM Worldwide Ecosystem
Tools
OS, Middleware, Libraries
Professional Services
3rd Party
Open Source Community
Board Support Package, Drivers and Custom IP Cores
Provided for a range of development boards, peripherals and system functions
Applications
OS Kernel High Level and Low Level Drivers
Processing System
Programmable Logic
OS BSP’s
Silicon
Custom
Libraries & APIs

19. Zynq-7000 EPP HW Design Environment
Customize your Design
Create a unique microprocessor configuration
Realize DSP, graphics, communications functions
Design custom accelerators and functions
Deploy high level functions directly to silicon
Xilinx-Optimized EDA Design tools
HDL & HLS simulation
HDL synthesis
Design analysis
Integrate Plug & Play IP Portfolio
AMBA® AXI enabled
Large selection of Xilinx and 3rd Party IP
Applications
OS Kernel High Level and Low Level Drivers
Processing System
Programmable Logic
OS BSP’s
Silicon
Custom
Libraries & APIs

20. Zynq-7000 EPP Development Platforms
Powerful Xilinx Development Platforms
ZC702 Base Evaluation Kit
Zynq-7000 EPP Video Kit
Many Application Specific Development Kits
Expandable with Industry Standards FMC (FPGA Mezzanine Connector) Daughter Cards
QEMU Virtual Platform
Various Partner development Platforms
Community based AVNET ZedBoard
Many local and worldwide COTS providers
Cadence Virtual Platform

21. Extensive Partnership Ecosystem
And MORE …

22. Zynq-7000 EPP – Platform Availability
HW Design Tools
ISE Design Suite 14.1
Virtual Platform
3 options:
QEMU,
Software Developer
System Creator
Tools Ecosystem
7000
OS Ecosystem
Linux, Android, WinCE, VxWorks, ENEA OSE, FreeRTOS, …
Other partners
IP FPGA Blocks
Software elements
Design Services (Boards and Applications)
Trainings
Silicon Devices
Dev. Boards

23. Zynq-7000 Extensible Processing Platform Summary
New Scalable Family of Devices
Zynq-7000 EPP device portfolio
Four devices for a broad range of applications
Industry Standard Design Environments
Well defined SW programming model
Familiar HW design flow
Flexible accelerators and IP
Standard AMBA® AXI interfaces
Broad and Expanding Ecosystem
Tools, OS’s, IP
Middleware, codecs …
Availability
Z-7020 Sampling Now
Production 2H CY2012
7000
7010 30
7020 85
7030
125
7045
350

24. Zynq-7000 EPP Driver Assistance Application

25. Zynq-7000 EPP Broadcast Camera Application

26. Zynq-7000 EPP Broadcast Camera Application

27. Device Table

28. Zynq-7000 Device Table Processing System

29. Zynq-7000 Device Table Programmable Logic and Packages