10M08DAF256I7G - INTEL - Datasheet.Live

Intel® MAX® 10 FPGA Device

Overview

Send Feedback

M10-OVERVIEW | 2017.12.15

Related Links

Intel MAX 10 FPGA Device Datasheet

Key Advantages of Intel MAX 10 Devices

Table 1. Key Advantages of Intel MAX 10 Devices

Advantage Supporting Feature

Simple and fast configuration Secure on-die flash memory enables device configuration in less than 10 ms

Flexibility and integration • Single device integrating PLD logic, RAM, flash memory, digital signal

processing (DSP), ADC, phase-locked loop (PLL), and I/Os

• Small packages available from 3 mm × 3 mm

Low power • Sleep mode—significant standby power reduction and resumption in less than

1 ms

• Longer battery life—resumption from full power-off in less than 10 ms

20-year-estimated life cycle Built on TSMC's 55 nm embedded flash process technology

High productivity design tools • Intel Quartus® Prime Lite edition (no cost license)

• Platform Designer (Standard) system integration tool

• DSP Builder for Intel FPGAs

• Nios® II Embedded Design Suite (EDS)

M10-OVERVIEW | 2017.12.15

and Stratix words and logos are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other

countries. Intel warrants performance of its FPGA and semiconductor products to current specifications in

accordance with Intel's standard warranty, but reserves the right to make changes to any products and services

at any time without notice. Intel assumes no responsibility or liability arising out of the application or use of any

information, product, or service described herein except as expressly agreed to in writing by Intel. Intel

customers are advised to obtain the latest version of device specifications before relying on any published

information and before placing orders for products or services.

*Other names and brands may be claimed as the property of others.

ISO

9001:2008

Registered

Summary of Intel MAX 10 Device Features

Table 2. Summary of Features for Intel MAX 10 Devices

Feature Description

Technology 55 nm TSMC Embedded Flash (Flash + SRAM) process technology

Packaging • Low cost, small form factor packages—support multiple packaging

technologies and pin pitches

• Multiple device densities with compatible package footprints for seamless

migration between different device densities

• RoHS6-compliant

Core architecture • 4-input look-up table (LUT) and single register logic element (LE)

• LEs arranged in logic array block (LAB)

• Embedded RAM and user flash memory

• Clocks and PLLs

• Embedded multiplier blocks

• General purpose I/Os

Internal memory blocks • M9K—9 kilobits (Kb) memory blocks

• Cascadable blocks to create RAM, dual port, and FIFO functions

User flash memory (UFM) • User accessible non-volatile storage

• High speed operating frequency

• Large memory size

• High data retention

• Multiple interface option

Embedded multiplier blocks • One 18 × 18 or two 9 × 9 multiplier modes

• Cascadable blocks enabling creation of filters, arithmetic functions, and image

processing pipelines

ADC • 12-bit successive approximation register (SAR) type

• Up to 17 analog inputs

• Cumulative speed up to 1 million samples per second ( MSPS)

• Integrated temperature sensing capability

Clock networks • Global clocks support

• High speed frequency in clock network

Internal oscillator Built-in internal ring oscillator

PLLs • Analog-based

• Low jitter

• High precision clock synthesis

• Clock delay compensation

• Zero delay buffering

• Multiple output taps

General-purpose I/Os (GPIOs) • Multiple I/O standards support

• On-chip termination (OCT)

• Up to 830 megabits per second (Mbps) LVDS receiver, 800 Mbps LVDS

transmitter

External memory interface (EMIF) (1) Supports up to 600 Mbps external memory interfaces:

continued...

(1) EMIF is only supported in selected Intel MAX 10 device density and package combinations.

Refer to the External Memory Interface User Guide for more information.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Feature Description

• DDR3, DDR3L, DDR2, LPDDR2 (on 10M16, 10M25, 10M40, and 10M50.)

• SRAM (Hardware support only)

Note: For 600 Mbps performance, –6 device speed grade is required.

Performance varies according to device grade (commercial, industrial, or

automotive) and device speed grade (–6 or –7). Refer to the Intel MAX

10 FPGA Device Datasheet or External Memory Interface Spec Estimator

for more details.

Configuration • Internal configuration

• JTAG

• Advanced Encryption Standard (AES) 128-bit encryption and compression

options

• Flash memory data retention of 20 years at 85 °C

Flexible power supply schemes • Single- and dual-supply device options

• Dynamically controlled input buffer power down

• Sleep mode for dynamic power reduction

Intel MAX 10 Device Ordering Information

Figure 1. Sample Ordering Code and Available Options for Intel MAX 10 Devices

V : Wafer-Level Chip Scale (WLCSP)

E : Plastic Enhanced Quad Flat Pack (EQFP)

M : Micro FineLine BGA (MBGA)

U : Ultra FineLine BGA (UBGA)

F : FineLine BGA (FBGA)

Family Signature

Package Type

WLCSP Package Type

36 : 36 pins, 3 mm x 3 mm

81 : 81 pins, 4 mm x 4 mm

EQFP Package Type

144 : 144 pins, 22 mm x 22 mm

UBGA Package Type

169 : 169 pins, 11 mm x 11 mm

324 : 324 pins, 15 mm x 15 mm

FBGA Package Type

256 : 256 pins, 17 mm x 17 mm

484 : 484 pins, 23 mm x 23 mm

672 : 672 pins, 27 mm x 27 mm

MBGA Package Type

153 : 153 pins, 8 mm x 8 mm

Package Code

Operating Temperature

FPGA Fabric

Speed Grade Optional Suffix

Indicates specific device

options or shipment method

6 (fastest)

10M 16 DA U 484 I 7 G

SC : Single supply - compact features

SA : Single supply - analog and flash features

with RSU option

DC Dual supply - compact features

DF Dual supply - flash features with RSU option

DA Dual supply - analog and flash features

with RSU option

Feature Options

02 : 2K logic elements

04 : 4K logic elements

08 : 8K logic elements

16 : 16K logic elements

25 : 25K logic elements

40 : 40K logic elements

50 : 50K logic elements

Member Code

10M : Intel® MAX® 10

G : RoHS6

ES : Engineering sample

P : Leaded package

C : Commercial (T = 0° C to 85° C)

I : Industrial (T = - 40° C to 100° C)

A : Automotive (T = - 40° C to 125° C)

Note: The –I6 and –A6 speed grades of the Intel MAX 10 FPGA devices are not available by

default in the Intel Quartus Prime software. Contact your local Intel sales

representatives for support.

Related Links

Intel FPGA Product Selector

Provides the latest information about Intel FPGAs.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Intel MAX 10 Device Feature Options

Table 3. Feature Options for Intel MAX 10 Devices

Option Feature

Compact Devices with core architecture featuring single configuration image with self-configuration capability

Flash Devices with core architecture featuring:

• Dual configuration image with self-configuration capability

• Remote system upgrade capability

• Memory initialization

Analog Devices with core architecture featuring:

• Dual configuration image with self-configuration capability

• Remote system upgrade capability

• Memory initialization

• Integrated ADC

Intel MAX 10 Device Maximum Resources

Table 4. Maximum Resource Counts for Intel MAX 10 Devices

Resource Device

10M02 10M04 10M08 10M16 10M25 10M40 10M50

Logic Elements (LE) (K) 2 4 8 16 25 40 50

M9K Memory (Kb) 108 189 378 549 675 1,260 1,638

User Flash Memory (Kb) (2) 96 1,248 1,376 2,368 3,200 5,888 5,888

18 × 18 Multiplier 16 20 24 45 55 125 144

PLL 2 2 2 4 4 4 4

GPIO 246 246 250 320 360 500 500

LVDS Dedicated

Transmitter

15 15 15 22 24 30 30

Emulated

Transmitter

114 114 116 151 171 241 241

Dedicated Receiver 114 114 116 151 171 241 241

Internal Configuration Image 1 2 2 2 2 2 2

ADC — 1 1 1 2 2 2

(2) The maximum possible value including user flash memory and configuration flash memory. For

more information, refer to Intel MAX 10 User Flash Memory User Guide.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Intel MAX 10 Devices I/O Resources Per Package

Table 5. Package Plan for Intel MAX 10 Single Power Supply Devices

Device Package

Type M153

153-pin MBGA

U169

169-pin UBGA

U324

324-pin UBGA

E144

144-pin EQFP

Size 8 mm × 8 mm 11 mm × 11 mm 15 mm × 15 mm 22 mm × 22 mm

Ball Pitch 0.5 mm 0.8 mm 0.8 mm 0.5 mm

10M02 112 130 246 101

10M04 112 130 246 101

10M08 112 130 246 101

10M16 — 130 246 101

10M25 — — — 101

10M40 — — — 101

10M50 — — — 101

Table 6. Package Plan for Intel MAX 10 Dual Power Supply Devices

Device Package

Type V36

36-pin WLCSP

V81

81-pin WLCSP

U324

324-pin UBGA

F256

256-pin FBGA

F484

484-pin FBGA

F672

672-pin FBGA

Size 3 mm × 3 mm 4 mm × 4 mm 15 mm × 15

17 mm × 17

23 mm × 23

27 mm × 27

Ball Pitch 0.4 mm 0.4 mm 0.8 mm 1.0 mm 1.0 mm 1.0 mm

10M02 27 — 160 — — —

10M04 — — 246 178 — —

10M08 — 56 246 178 250 —

10M16 — — 246 178 320 —

10M25 — — — 178 360 —

10M40 — — — 178 360 500

10M50 — — — 178 360 500

Related Links

•Intel MAX 10 General Purpose I/O User Guide

•Intel MAX 10 High-Speed LVDS I/O User Guide

Intel MAX 10 Vertical Migration Support

Vertical migration supports the migration of your design to other Intel MAX 10 devices

of different densities in the same package with similar I/O and ADC resources.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Intel MAX 10 I/O Vertical Migration Support

Figure 2. Migration Capability Across Intel MAX 10 Devices

• The arrows indicate the migration paths. The devices included in each vertical migration path are shaded.

Non-migratable devices are omitted. Some packages have several migration paths. Devices with lesser

I/O resources in the same path have lighter shades.

• To achieve the full I/O migration across product lines in the same migration path, restrict I/Os usage to

match the product line with the lowest I/O count.

Device V36 V81 M153 U169 U324 F256 E144 F484 F672

10M02

10M04

10M08

10M16

10M25

10M40

10M50

Package

Single Power Supply Devices

Dual Power Supply Devices

Note: To verify the pin migration compatibility, use the Pin Migration View window in the

Intel Quartus Prime software Pin Planner.

Intel MAX 10 ADC Vertical Migration Support

Figure 3. ADC Vertical Migration Across Intel MAX 10 Devices

The arrows indicate the ADC migration paths. The devices included in each vertical migration path are shaded.

Device

Package

M153 U169 U324 F256 E144 F484 F672

10M04

10M08

10M16

10M25

10M40

10M50

Dual ADC Device: Each ADC (ADC1 and ADC2) supports 1 dedicated analog input pin and 8 dual function pins.

Single ADC Device: Single ADC that supports 1 dedicated analog input pin and 16 dual function pins.

Single ADC Device: Single ADC that supports 1 dedicated analog input pin and 8 dual function pins.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Table 7. Pin Migration Conditions for ADC Migration

Source Target Migratable Pins

Single ADC device Single ADC device You can migrate all ADC input pins

Dual ADC device Dual ADC device

Single ADC device Dual ADC device • One dedicated analog input pin.

• Eight dual function pins from the ADC1 block of the

source device to the ADC1 block of the target device.

Dual ADC device Single ADC device

Logic Elements and Logic Array Blocks

The LAB consists of 16 logic elements (LE) and a LAB-wide control block. An LE is the

smallest unit of logic in the Intel MAX 10 device architecture. Each LE has four inputs,

a four-input look-up table (LUT), a register, and output logic. The four-input LUT is a

function generator that can implement any function with four variables.

Figure 4. Intel MAX 10 Device Family LEs

Row, column, and

direct link routing

data 1

data 2

data 3

data 4

labclr1

labclr2

Chip-wide reset

(DEV_CLRn)

labclk1

labclk2

labclkena1

labclkena2

LE carry-in

LAB-wide

synchronous load

LAB-Wide

synchronous clear

Row, column, and

direct link routing

Local routing

Programmable register

from previous LE

LE Carry-Out

Synchronous

Load and

Clear Logic

Carry

Chain

Look-Up Table

(LUT)

Asynchronous

Clear Logic

Clock and

Clock Enable

Select

ENA

CLRN

Analog-to-Digital Converter

Intel MAX 10 devices feature up to two ADCs. You can use the ADCs to monitor many

different signals, including on-chip temperature.

Table 8. ADC Features

Feature Description

12-bit resolution • Translates analog signal to digital data for information processing, computing,

data transmission, and control systems

• Provides a 12-bit digital representation of the observed analog signal

Up to 1 MSPS sampling rate Monitors single-ended external inputs with a cumulative sampling rate of 25

kilosamples per second to 1 MSPS in normal mode

continued...

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Feature Description

Up to 17 single-ended external inputs

for single ADC devices

One dedicated analog and 16 dual function input pins

Up to 18 single-ended external inputs

for dual ADC devices

• One dedicated analog and eight dual-function input pins in each ADC block

• Simultaneous measurement capability for dual ADC devices

On-chip temperature sensor Monitors external temperature data input with a sampling rate of up to 50

kilosamples per second

User Flash Memory

The user flash memory (UFM) block in Intel MAX 10 devices stores non-volatile

information.

UFM provides an ideal storage solution that you can access using Avalon Memory-

Mapped (Avalon-MM) slave interface protocol.

Table 9. UFM Features

Features Capacity

Endurance Counts to at least 10,000 program/erase cycles

Data retention • 20 years at 85 ºC

• 10 years at 100 ºC

Operating frequency Maximum 116 MHz for parallel interface and 7.25 MHz for

serial interface

Data length Stores data up to 32 bits length in parallel

Embedded Multipliers and Digital Signal Processing Support

Intel MAX 10 devices support up to 144 embedded multiplier blocks. Each block

supports one individual 18 × 18-bit multiplier or two individual 9 × 9-bit multipliers.

With the combination of on-chip resources and external interfaces in Intel MAX 10

devices, you can build DSP systems with high performance, low system cost, and low

power consumption.

You can use the Intel MAX 10 device on its own or as a DSP device co-processor to

improve price-to-performance ratios of DSP systems.

You can control the operation of the embedded multiplier blocks using the following

options:

• Parameterize the relevant IP cores with the Intel Quartus Prime parameter editor

• Infer the multipliers directly with VHDL or Verilog HDL

System design features provided for Intel MAX 10 devices:

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

• DSP IP cores:

— Common DSP processing functions such as finite impulse response (FIR), fast

Fourier transform (FFT), and numerically controlled oscillator (NCO) functions

— Suites of common video and image processing functions

• Complete reference designs for end-market applications

• DSP Builder for Intel FPGAs interface tool between the Intel Quartus Prime

software and the MathWorks Simulink and MATLAB design environments

• DSP development kits

Embedded Memory Blocks

The embedded memory structure consists of M9K memory blocks columns. Each M9K

memory block of a Intel MAX 10 device provides 9 Kb of on-chip memory capable of

operating at up to 284 MHz. The embedded memory structure consists of M9K

memory blocks columns. Each M9K memory block of a Intel MAX 10 device provides

9 Kb of on-chip memory. You can cascade the memory blocks to form wider or deeper

logic structures.

You can configure the M9K memory blocks as RAM, FIFO buffers, or ROM.

The Intel MAX 10 device memory blocks are optimized for applications such as high

throughput packet processing, embedded processor program, and embedded data

storage.

Table 10. M9K Operation Modes and Port Widths

Operation Modes Port Widths

Single port ×1, ×2, ×4, ×8, ×9, ×16, ×18, ×32, and ×36

Simple dual port ×1, ×2, ×4, ×8, ×9, ×16, ×18, ×32, and ×36

True dual port ×1, ×2, ×4, ×8, ×9, ×16, and ×18

Clocking and PLL

Intel MAX 10 devices offer the following resources: global clock (GCLK) networks and

phase-locked loops (PLLs) with a 116-MHz built-in oscillator.

Intel MAX 10 devices support up to 20 global clock (GCLK) networks with operating

frequency up to 450 MHz. The GCLK networks have high drive strength and low skew.

The PLLs provide robust clock management and synthesis for device clock

management, external system clock management, and I/O interface clocking. The

high precision and low jitter PLLs offers the following features:

• Reduction in the number of oscillators required on the board

• Reduction in the device clock pins through multiple clock frequency synthesis from

a single reference clock source

• Frequency synthesis

• On-chip clock de-skew

• Jitter attenuation

• Dynamic phase-shift

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

• Zero delay buffer

• Counter reconfiguration

• Bandwidth reconfiguration

• Programmable output duty cycle

• PLL cascading

• Reference clock switchover

• Driving of the ADC block

FPGA General Purpose I/O

The Intel MAX 10 I/O buffers support a range of programmable features.

These features increase the flexibility of I/O utilization and provide an alternative to

reduce the usage of external discrete components such as a pull-up resistor and a PCI

clamp diode.

External Memory Interface

Dual-supply Intel MAX 10 devices feature external memory interfaces solution that

uses the I/O elements on the right side of the devices together with the UniPHY IP.

With this solution, you can create external memory interfaces to 16-bit SDRAM

components with error correction coding (ECC).

Note: The external memory interface feature is available only for dual-supply Intel MAX 10

devices.

Table 11. External Memory Interface Performance

External Memory

Interface(3)

I/O Standard Maximum Width Maximum Frequency (MHz)

DDR3 SDRAM SSTL-15 16 bit + 8 bit ECC 303

DDR3L SDRAM SSTL-135 16 bit + 8 bit ECC 303

DDR2 SDRAM SSTL-18 16 bit + 8 bit ECC 200

LPDDR2 SDRAM HSUL-12 16 bit without ECC 200(4)

Related Links

External Memory Interface Spec Estimator

Provides a parametric tool that allows you to find and compare the performance of

the supported external memory interfaces in Intel FPGAs.

(3) The device hardware supports SRAM. Use your own design to interface with SRAM devices.

(4) To achieve the specified performance, constrain the memory device I/O and core power supply

variation to within ±3%. By default, the frequency is 167 MHz.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Configuration

Table 12. Configuration Features

Feature Description

Dual configuration • Stores two configuration images in the configuration flash memory (CFM)

•Selects the first configuration image to load using the CONFIG_SEL pin

Design security • Supports 128-bit key with non-volatile key programming

• Limits access of the JTAG instruction during power-up in the JTAG secure mode

• Unique device ID for each Intel MAX 10 device

SEU Mitigation • Auto-detects cyclic redundancy check (CRC) errors during configuration

• Provides optional CRC error detection and identification in user mode

Dual-purpose configuration

• Functions as configuration pins prior to user mode

• Provides options to be used as configuration pin or user I/O pin in user mode

Configuration data

compression

• Decompresses the compressed configuration bitstream data in real-time during

configuration

• Reduces the size of configuration image stored in the CFM

Instant-on Provides the fastest power-up mode for Intel MAX 10 devices.

Table 13. Configuration Schemes for Intel MAX 10 Devices

Configuration Scheme Compression Encryption Dual Image

Configuration

Data Width

Internal Configuration Yes Yes Yes —

JTAG — — — 1

Power Management

Table 14. Power Options

Power Options Advantage

Single-supply device Saves board space and costs.

Dual-supply device • Consumes less power

• Offers higher performance

Power management

controller scheme

• Reduces dynamic power consumption when certain applications are in standby mode

• Provides a fast wake-up time of less than 1 ms.

Document Revision History for Intel MAX 10 FPGA Device Overview

Date Version Changes

December 2017 2017.12.15 • Added the U324 package for the Intel MAX 10 single power supply

devices.

• Updated the 10M02 GPIO and LVDS count in the Maximum Resource

Counts for Intel MAX 10 Devices table.

• Updated the I/O vertical migration figure.

February 2017 2017.02.21 • Rebranded as Intel.

continued...

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview

Date Version Changes

December 2016 2016.12.20 • Updated EMIF information in the Summary of Features for Intel MAX 10

Devices table. EMIF is only supported in selected Intel MAX 10 device

density and package combinations, and for 600 Mbps performance, –6

device speed grade is required.

• Updated the device ordering information to include P for leaded

package.

May 2016 2016.05.02 • Removed all preliminary marks.

• Update the ADC sampling rate description. The ADC feature monitors

single-ended external inputs with a cumulative sampling rate of 25

kilosamples per second to 1 MSPS in normal mode.

November 2015 2015.11.02 • Removed SF feature from the device ordering information figure.

• Changed instances of Quartus II to Intel Quartus Prime.

May 2015 2015.05.04 • Added clearer descriptions for the feature options listed in the device

ordering information figure.

• Updated the maximum dedicated LVDS transmitter count of 10M02

device from 10 to 9.

• Removed the F672 package of the Intel MAX 10 10M25 device :

— Updated the devices I/O resources per package.

— Updated the I/O vertical migration support.

— Updated the ADC vertical migration support.

• Updated the maximum resources for 10M25 device:

— Maximum GPIO from 380 to 360.

— Maximum dedicated LVDS transmitter from 26 to 24.

— Maximum emulated LVDS transmitter from 181 to 171.

— Maximum dedicated LVDS receiver from 181 to 171.

• Added ADC information for the E144 package of the 10M04 device.

• Updated the ADC vertical migration diagram to clarify that there are

single ADC devices with eight and 16 dual function pins.

• Removed the note about contacting Altera for DDR3, DDR3L, DDR2,

and LPDDR2 external memory interface support. The Intel Quartus

Prime software supports these external memory interfaces from version

15.0.

December 2014 2014.12.15 • Changed terms:

— "dual image" to "dual configuration image"

— "dual-image configuration" to dual configuration"

• Added memory initialization feature for Flash and Analog devices.

• Added maximum data retention capacity of up to 20 years for UFM

feature.

• Added maximum operating frequency of 7.25 MHz for serial interface

for UFM feature.

September 2014 2014.09.22 Initial release.

Intel® MAX® 10 FPGA Device Overview

M10-OVERVIEW | 2017.12.15

Intel® MAX® 10 FPGA Device Overview