SIV51001-3.5
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Stratix IV Device Handbook
Volume 1
January 2016
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ISO
9001:2008
Registered
1. Overview for the Stratix IV Device
Family
Altera® Stratix® IV FPGAs deliver a breakthrough level of system bandwidth and
power efficiency for high-end applications, allowing you to innovate without
compromise. Stratix IV FPGAs are based on the Taiwan Semiconductor
Manufacturing Company (TSMC) 40-nm process technology and surpass all other
high-end FPGAs, with the highest logic density, most transceivers, and lowest power
requirements.
The Stratix IV device family contains three optimized variants to meet different
application requirements:
Stratix IV E (Enhanced) FPGAs—up to 813,050 logic elements (LEs), 33,294 kilobits
(Kb) RAM, and 1,288 18 x 18 bit multipliers
Stratix IV GX transceiver FPGAs—up to 531,200 LEs, 27,376 Kb RAM, 1,288
18 x 18-bit multipliers, and 48 full-duplex clock data recovery (CDR)-based
transceivers at up to 8.5 Gbps
Stratix IV GT—up to 531,200 LEs, 27,376 Kb RAM, 1,288 18 x 18-bit multipliers,
and 48 full-duplex CDR-based transceivers at up to 11.3 Gbps
The complete Altera high-end solution includes the lowest risk, lowest total cost path
to volume using HardCopy® IV ASICs for all the family variants, a comprehensive
portfolio of application solutions customized for end-markets, and the industry
leading Quartus® II software to increase productivity and performance.
fFor information about upcoming Stratix IV device features, refer to the Upcoming
Stratix IV Device Features document.
fFor information about changes to the currently published Stratix IV Device Handbook,
refer to the Addendum to the Stratix IV Device Handbook chapter.
This chapter contains the following sections:
“Feature Summary” on page 1–2
“Architecture Features” on page 1–6
“Integrated Software Platform” on page 1–19
“Ordering Information” on page 1–19
January 2016
SIV51001-3.5
1–2 Chapter 1: Overview for the Stratix IV Device Family
Feature Summary
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Feature Summary
The following list summarizes the Stratix IV device family features:
Up to 48 full-duplex CDR-based transceivers in Stratix IV GX and GT devices
supporting data rates up to 8.5 Gbps and 11.3 Gbps, respectively
Dedicated circuitry to support physical layer functionality for popular serial
protocols, such as PCI Express (PCIe) (PIPE) Gen1 and Gen2, Gbps Ethernet (GbE),
Serial RapidIO, SONET/SDH, XAUI/HiGig, (OIF) CEI-6G, SD/HD/3G-SDI, Fibre
Channel, SFI-5, and Interlaken
Complete PCIe protocol solution with embedded PCIe hard IP blocks that
implement PHY-MAC layer, Data Link layer, and Transaction layer functionality
fFor more information, refer to the IP Compiler for PCI Express User Guide.
Programmable transmitter pre-emphasis and receiver equalization circuitry to
compensate for frequency-dependent losses in the physical medium
Typical physical medium attachment (PMA) power consumption of 100 mW at
3.125 Gbps and 135 mW at 6.375 Gbps per channel
72,600 to 813,050 equivalent LEs per device
7,370 to 33,294 Kb of enhanced TriMatrix memory consisting of three RAM block
sizes to implement true dual-port memory and FIFO buffers
High-speed digital signal processing (DSP) blocks configurable as 9 x 9-bit,
12 x 12-bit, 18 x 18-bit, and 36 x 36-bit full-precision multipliers at up to 600 MHz
Up to 16 global clocks (GCLK), 88 regional clocks (RCLK), and 132 periphery
clocks (PCLK) per device
Programmable power technology that minimizes power while maximizing device
performance
Up to 1,120 user I/O pins arranged in 24 modular I/O banks that support a wide
range of single-ended and differential I/O standards
Support for high-speed external memory interfaces including DDR, DDR2,
DDR3 SDRAM, RLDRAM II, QDR II, and QDR II+ SRAM on up to 24 modular
I/O banks
High-speed LVDS I/O support with serializer/deserializer (SERDES), dynamic
phase alignment (DPA), and soft-CDR circuitry at data rates up to 1.6 Gbps
Support for source-synchronous bus standards, including SGMII, GbE, SPI-4
Phase 2 (POS-PHY Level 4), SFI-4.1, XSBI, UTOPIA IV, NPSI, and CSIX-L1
Pinouts for Stratix IV E devices designed to allow migration of designs from
Stratix III to Stratix IV E with minimal PCB impact
Chapter 1: Overview for the Stratix IV Device Family 1–3
Feature Summary
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
Stratix IV GX Devices
Stratix IV GX devices provide up to 48 full-duplex CDR-based transceiver channels
per device:
Thirty-two out of the 48 transceiver channels have dedicated physical coding
sublayer (PCS) and physical medium attachment (PMA) circuitry and support
data rates between 600 Mbps and 8.5 Gbps
The remaining 16 transceiver channels have dedicated PMA-only circuitry and
support data rates between 600 Mbps and 6.5 Gbps
1The actual number of transceiver channels per device varies with device selection. For
more information about the exact transceiver count in each device, refer to Table 11
on page 1–11.
1For more information about transceiver architecture, refer to the Transceiver
Architecture in Stratix IV Devices chapter.
Figure 1–1 shows a high-level Stratix IV GX chip view.
Figure 1–1. Stratix IV GX Chip View (1)
Note to Figure 1–1:
(1) Resource counts vary with device selection, package selection, or both.
General Purpose
I/O and Memory
Interface
600 Mbps-8.5 Gbps CDR-based Transceiver
General Purpose I/O and 150 Mbps-1.6 Gbps
LVDS interface with DPA and Soft-CDR
Transceiver
Block
Transceiver
Block
Transceiver
Block
Transceiver
Block
PCI Express
Hard IP Block
PCI Express
Hard IP Block
PCI Express
Hard IP Block
PCI Express
Hard IP Block
General Purpose
I/O and Memory
Interface
PLL
PLL
PLL
PLL
PLL PLL
General Purpose
I/O and Memory
Interface
General Purpose
I/O and Memory
Interface
PLL PLL
FPGA Fabric
(Logic Elements, DSP,
Embedded Memory,
Clock Networks)
Transceiver Block
General Purpose I/O and
High-Speed LVDS I/O
with DPA and Soft CDR
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
PLL
PLL
PLL
PLL
Transceiver
Block
Transceiver
Block
Transceiver
Block
Transceiver
Block
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
1–4 Chapter 1: Overview for the Stratix IV Device Family
Feature Summary
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Stratix IV E Device
Stratix IV E devices provide an excellent solution for applications that do not require
high-speed CDR-based transceivers, but are logic, user I/O, or memory intensive.
Figure 1–2 shows a high-level Stratix IV E chip view.
Figure 1–2. Stratix IV E Chip View (1)
Note to Figure 1–2:
(1) Resource counts vary with device selection, package selection, or both.
General Purpose
I/O and Memory
Interface
General Purpose I/O and
150 Mbps-1.6 Gbps
LVDS interface with DPA and Soft-CDR
General
Purpose
I/O and
High-Speed
LVDS I/O
with DPA
and Soft-CDR
General Purpose
I/O and Memory
Interface
PLL
PLL
PLL
PLL
PLL
PLL
PLL
PLL
PLL PLL
General Purpose
I/O and Memory
Interface
General Purpose
I/O and Memory
Interface
PLL PLL
FPGA Fabric
(Logic Elements, DSP,
Embedded Memory,
Clock Networks)
General Purpose I/O and
High-Speed LVDS I/O with DPA
and Soft-CDR
General
Purpose
I/O and
High-Speed
LVDS I/O
with DPA
and Soft-CDR
General
Purpose
I/O and
High-Speed
LVDS I/O
with DPA
and Soft-CDR
General
Purpose
I/O and
High-Speed
LVDS I/O
with DPA
and Soft-CDR
Chapter 1: Overview for the Stratix IV Device Family 1–5
Feature Summary
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
Stratix IV GT Devices
Stratix IV GT devices provide up to 48 CDR-based transceiver channels per device:
Thirty-two out of the 48 transceiver channels have dedicated PCS and PMA
circuitry and support data rates between 600 Mbps and 11.3 Gbps
The remaining 16 transceiver channels have dedicated PMA-only circuitry and
support data rates between 600 Mbps and 6.5 Gbps
1The actual number of transceiver channels per device varies with device selection. For
more information about the exact transceiver count in each device, refer to Table 17
on page 1–16.
1For more information about Stratix IV GT devices and transceiver architecture, refer
to the Transceiver Architecture in Stratix IV Devices chapter.
Figure 1–3 shows a high-level Stratix IV GT chip view.
Figure 1–3. Stratix IV GT Chip View (1)
Note to Figure 1–3:
(1) Resource counts vary with device selection, package selection, or both.
General Purpose
I/O and Memory
Interface
600 Mbps-11.3 Gbps CDR-based Transceiver
General Purpose I/O and up to 1.6 Gbps
LVDS interface with DPA and Soft-CDR
PCI Express
Hard IP Block
PCI Express
Hard IP Block
PCI Express
Hard IP Block
PCI Express
Hard IP Block
Transceiver
Block
Transceiver
Block
Transceiver
Block
Transceiver
Block
General Purpose
I/O and Memory
Interface
PLL
PLL
PLL
PLL
PLL PLL
General Purpose
I/O and Memory
Interface
General Purpose
I/O and Memory
Interface
PLL PLL
FPGA Fabric
(Logic Elements, DSP,
Embedded Memory,
Clock Networks)
Transceiver Block
General Purpose I/O and
High-Speed LVDS I/O
with DPA and Soft CDR
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
PLL
PLL
PLL
PLL
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
General Purpose
I/O and
High-Speed
LVDS I/O with
DPA and Soft CDR
Transceiver
Block
Transceiver
Block
Transceiver
Block
Transceiver
Block
1–6 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Architecture Features
The Stratix IV device family features are divided into high-speed transceiver features
and FPGA fabric and I/O features.
1The high-speed transceiver features apply only to Stratix IV GX and Stratix IV GT
devices.
High-Speed Transceiver Features
The following sections describe high-speed transceiver features for Stratix IV GX and
GT devices.
Highest Aggregate Data Bandwidth
Up to 48 full-duplex transceiver channels supporting data rates up to 8.5 Gbps in
Stratix IV GX devices and up to 11.3 Gbps in Stratix IV GT devices.
Wide Range of Protocol Support
Physical layer support for the following serial protocols:
Stratix IV GX—PCIe Gen1 and Gen2, GbE, Serial RapidIO, SONET/SDH,
XAUI/HiGig, (OIF) CEI-6G, SD/HD/3G-SDI, Fibre Channel, SFI-5, GPON,
SAS/SATA, HyperTransport 1.0 and 3.0, and Interlaken
Stratix IV GT—40G/100G Ethernet, SFI-S, Interlaken, SFI-5.1, Serial RapidIO,
SONET/SDH, XAUI/HiGig, (OIF) CEI-6G, 3G-SDI, and Fibre Channel
Extremely flexible and easy-to-configure transceiver data path to implement
proprietary protocols
PCIe Support
Complete PCIe Gen1 and Gen2 protocol stack solution compliant to PCI
Express base specification 2.0 that includes PHY-MAC, Data Link, and
transaction layer circuitry embedded in PCI Express hard IP blocks
fFor more information, refer to the PCI Express Compiler User Guide.
Root complex and end-point applications
x1, x4, and x8 lane configurations
PIPE 2.0-compliant interface
Embedded circuitry to switch between Gen1 and Gen2 data rates
Built-in circuitry for electrical idle generation and detection, receiver detect,
power state transitions, lane reversal, and polarity inversion
8B/10B encoder and decoder, receiver synchronization state machine, and
± 300 parts per million (ppm) clock compensation circuitry
Transaction layer support for up to two virtual channels (VCs)
Chapter 1: Overview for the Stratix IV Device Family 1–7
Architecture Features
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
XAUI/HiGig Support
Compliant to IEEE802.3ae specification
Embedded state machine circuitry to convert XGMII idle code groups (||I||)
to and from idle ordered sets (||A||, ||K||, ||R||) at the transmitter and
receiver, respectively
8B/10B encoder and decoder, receiver synchronization state machine, lane
deskew, and ± 100 ppm clock compensation circuitry
GbE Support
Compliant to IEEE802.3-2005 specification
Automatic idle ordered set (/I1/, /I2/) generation at the transmitter,
depending on the current running disparity
8B/10B encoder and decoder, receiver synchronization state machine, and
± 100 ppm clock compensation circuitry
Support for other protocol features such as MSB-to-LSB transmission in
SONET/SDH configuration and spread-spectrum clocking in PCIe configurations
Diagnostic Features
Serial loopback from the transmitter serializer to the receiver CDR for transceiver
PCS and PMA diagnostics
Reverse serial loopback pre- and post-CDR to transmitter buffer for physical link
diagnostics
Loopback master and slave capability in PCI Express hard IP blocks
fFor more information, refer to the PCI Express Compiler User Guide.
Signal Integrity
Stratix IV devices simplify the challenge of signal integrity through a number of chip,
package, and board-level enhancements to enable efficient high-speed data transfer
into and out of the device. These enhancements include:
Programmable 3-tap transmitter pre-emphasis with up to 8,192 pre-emphasis
levels to compensate for pre-cursor and post-cursor inter-symbol interference (ISI)
Up to 900% boost capability on the first pre-emphasis post-tap
User-controlled and adaptive 4-stage receiver equalization with up to 16 dB of
high-frequency gain
On-die power supply regulators for transmitter and receiver phase-locked loop
(PLL) charge pump and voltage controlled oscillator (VCO) for superior noise
immunity
On-package and on-chip power supply decoupling to satisfy transient current
requirements at higher frequencies, thereby reducing the need for on-board
decoupling capacitors
Calibration circuitry for transmitter and receiver on-chip termination (OCT)
resistors
1–8 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
FPGA Fabric and I/O Features
The following sections describe the Stratix IV FPGA fabric and I/O features.
Device Core Features
Up to 531,200 LEs in Stratix IV GX and GT devices and up to 813,050 LEs in
Stratix IV E devices, efficiently packed in unique and innovative adaptive logic
modules (ALMs)
Ten ALMs per logic array block (LAB) deliver faster performance, improved logic
utilization, and optimized routing
Programmable power technology, including a variety of process, circuit, and
architecture optimizations and innovations
Programmable power technology available to select power-driven compilation
options for reduced static power consumption
Embedded Memory
TriMatrix embedded memory architecture provides three different memory block
sizes to efficiently address the needs of diversified FPGA designs:
640-bit MLAB
9-Kb M9K
144-Kb M144K
Up to 33,294 Kb of embedded memory operating at up to 600 MHz
Each memory block is independently configurable to be a single- or dual-port
RAM, FIFO, ROM, or shift register
Digital Signal Processing (DSP) Blocks
Flexible DSP blocks configurable as 9 x 9-bit, 12 x 12-bit, 18 x 18-bit, and 36 x 36-bit
full-precision multipliers at up to 600 MHz with rounding and saturation
capabilities
Faster operation due to fully pipelined architecture and built-in addition,
subtraction, and accumulation units to combine multiplication results
Optimally designed to support advanced features such as adaptive filtering, barrel
shifters, and finite and infinite impulse response (FIR and IIR) filters
Clock Networks
Up to 16 global clocks and 88 regional clocks optimally routed to meet the
maximum performance of 800 MHz
Up to 112 and 132 periphery clocks in Stratix IV GX and Stratix IV E devices,
respectively
Up to 66 (16 GCLK + 22 RCLK + 28 PCLK) clock networks per device quadrant in
Stratix IV GX and Stratix IV GT devices
Up to 71 (16 GCLK + 22 RCLK + 33 PCLK) clock networks per device quadrant in
Stratix IV E devices
Chapter 1: Overview for the Stratix IV Device Family 1–9
Architecture Features
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
PLLs
Three to 12 PLLs per device supporting spread-spectrum input tracking,
programmable bandwidth, clock switchover, dynamic reconfiguration, and delay
compensation
On-chip PLL power supply regulators to minimize noise coupling
I/O Features
Sixteen to 24 modular I/O banks per device with 24 to 48 I/Os per bank designed
and packaged for optimal simultaneous switching noise (SSN) performance and
migration capability
Support for a wide range of industry I/O standards, including single-ended
(LVTTL/CMOS/PCI/PCIX), differential (LVDS/mini-LVDS/RSDS),
voltage-referenced single-ended and differential (SSTL/HSTL Class I/II) I/O
standards
On-chip series (RS) and on-chip parallel (RT) termination with auto-calibration for
single-ended I/Os and on-chip differential (RD) termination for differential I/Os
Programmable output drive strength, slew rate control, bus hold, and weak
pull-up capability for single-ended I/Os
User I/O:GND:VCC ratio of 8:1:1 to reduce loop inductance in the package—PCB
interface
Programmable transmitter differential output voltage (VOD) and pre-emphasis for
high-speed LVDS I/O
High-Speed Differential I/O with DPA and Soft-CDR
Dedicated circuitry on the left and right sides of the device to support differential
links at data rates from 150 Mbps to 1.6 Gbps
Up to 98 differential SERDES in Stratix IV GX devices, up to 132 differential
SERDES in Stratix IV E devices, and up to 47 differential SERDES in Stratix IV GT
devices
DPA circuitry at the receiver automatically compensates for channel-to-channel
and channel-to-clock skew in source synchronous interfaces
Soft-CDR circuitry at the receiver allows implementation of asynchronous serial
interfaces with embedded clocks at up to 1.6 Gbps data rate (SGMII and GbE)
External Memory Interfaces
Support for existing and emerging memory interface standards such as DDR
SDRAM, DDR2 SDRAM, DDR3 SDRAM, QDRII SRAM, QDRII+ SRAM, and
RLDRAM II
DDR3 up to 1,067 Mbps/533 MHz
Programmable DQ group widths of 4 to 36 bits (includes parity bits)
Dynamic OCT, trace mismatch compensation, read-write leveling, and half-rate
register capabilities provide a robust external memory interface solution
1–10 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
System Integration
All Stratix IV devices support hot socketing
Four configuration modes:
Passive Serial (PS)
Fast Passive Parallel (FPP)
Fast Active Serial (FAS)
JTAG configuration
Ability to perform remote system upgrades
256-bit advanced encryption standard (AES) encryption of configuration bits
protects your design against copying, reverse engineering, and tampering
Built-in soft error detection for configuration RAM cells
fFor more information about how to connect the PLL, external memory interfaces, I/O,
high-speed differential I/O, power, and the JTAG pins to PCB, refer to the
Stratix IV GX and Stratix IV E Device Family Pin Connection Guidelines and the
Stratix IV GT Device Family Pin Connection Guidelines.
Chapter 1: Overview for the Stratix IV Device Family 1–11
Architecture Features
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
Table 1–1 lists the Stratix IV GX device features.
Table 1–1. Stratix IV GX Device Features (Part 1 of 2)
Feature EP4SGX70 EP4SGX110 EP4SGX180 EP4SGX230 EP4SGX290 EP4SGX360 EP4SGX530
Package
Option
F780
F1152
F780
F1152
F780
F1152
F1517
F780
F1152
F1517
F780
F1152
F1517
F1760
F1932
F780
F1152
F1517
F1760
F1932
F1760
F1932
ALMs 29,040 42,240 70,300 91,200 116,480 141,440 212,480
LEs 72,600 105,600 175,750 228,000 291,200 353,600 531,200
0.6 Gbps-
8.5 Gbps
Transceivers
(PMA + PCS)
(1)
16 16 —1624 1624 16242432 162424 32 24 32
0.6 Gbps-
6.5 Gbps
Transceivers
(PMA + PCS)
(1)
8 8 16 8 16 8 16 16 16 16 16
PMA-only
CMU
Channels
(0.6 Gbps-
6.5 Gbps)
8 8 8 12 8 12 8 12 12 16 8 12 12 16 12 16
PCI Express
hard IP
Blocks
121 2 1 2 1 2 2 4 2 4 4
High-Speed
LVDS
SERDES (up
to 1.6 Gbps)
(4)
28 56 28 28 56 28 44 88 28 44 88 44 88 88 98 44 88 88 98 88 98
SPI-4.2 Links 1 1 1 2 4 1 2 4 2 4 2 4 4
1–12 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
M9K Blocks
(256 x
36 bits)
462 660 950 1,235 936 1,248 1,280
M144K
Blocks
(2048 x
72 bits)
16 16 20 22 36 48 64
Total Memory
(MLAB+M9K
+M144K) Kb
7,370 9,564 13,627 17,133 17,248 22,564 27,376
Embedded
Multipliers
18 x 18 (2)
384 512 920 1,288 832 1,040 1,02
41,024
PLLs 3 4 3 4 3 6 8 3 6 8 4 6 8 12 12 4 6 8 12 12 12 12
User I/Os (3) 372 488 372 372 48
8372 56
4
56
4
74
4372 564 56
4
74
4289 564 56
4
74
4
88
0
92
0289 564 56
4
74
4
88
0920 880 920
Speed Grade
(fastest to
slowest) (5)
–2,
–3,
–4
–2,
–3,
–4
–2
,
–3,
–4
–2
,
–3,
–4
–2,
–3,
–4
–2
,
–3,
–4
–2
,
–3,
–4
–2
,
–3
,
–4
–2,
–3,
–4
–2
,
–3,
–4
–2
,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2
,
–3,
–4
–2
,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2
,
–3,
–4
–2
,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2,
–3,
–4
–2, –3,
–4
–2, –3,
–4
Notes to Table 1–1:
(1) The total number of transceivers is divided equally between the left and right side of each device, except for the devices in the F780 package. These devices have eight transceiver channels located only
on the right side of the device.
(2) Four multiplier adder mode.
(3) The user I/Os count from pin-out files includes all general purpose I/O, dedicated clock pins, and dual purpose configuration pins. Transceiver pins and dedicated configuration pins are not included in
the pin count.
(4) Total pairs of high-speed LVDS SERDES take the lowest channel count of RX/TX.
(5) The difference between the Stratix IV GX devices in the –2 and –2x speed grades is the number of available transceiver channels. The –2 device allows you to use the transceiver CMU blocks as
transceiver channels. The –2x device does NOT allow you to use the CMU blocks as transceiver channels. In addition to the reduction of available transceiver channels in the Stratix IV GX –2x device,
the data rates in the –2x device are limited to 6.5 Gbps.
Table 1–1. Stratix IV GX Device Features (Part 2 of 2)
Feature EP4SGX70 EP4SGX110 EP4SGX180 EP4SGX230 EP4SGX290 EP4SGX360 EP4SGX530
Package
Option
F780
F1152
F780
F1152
F780
F1152
F1517
F780
F1152
F1517
F780
F1152
F1517
F1760
F1932
F780
F1152
F1517
F1760
F1932
F1760
F1932
Chapter 1: Overview for the Stratix IV Device Family 1–13
Architecture Features
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
Table 1–2 lists the Stratix IV GX device package options.
1On-package decoupling reduces the need for on-board or PCB decoupling capacitors by satisfying the transient current
requirements at higher frequencies. The Power Delivery Network design tool for Stratix IV devices accounts for the on-package
decoupling and reflects the reduced requirements for PCB decoupling capacitors.
Table 1–2. Stratix IV GX Device Package Options (1), (2)
Device F780
(29 mm x 29 mm) (6)
F1152
(35 mm x 35 mm)
(6)
F1152
(35 mm x 35 mm) (5), (7)
F1517
(40 mm x 40 mm)
(5), (7)
F1760
(42.5 mm x 42.5 mm)
(7)
F1932
(45 mm x 45 mm)
(7)
EP4SGX70 DF29 HF35
EP4SGX110 DF29 FF35 HF35
EP4SGX180 DF29 FF35 HF35 KF40
EP4SGX230 DF29 FF35 HF35 KF40
EP4SGX290 FH29 (3) FF35 HF35 KF40 KF43 NF45
EP4SGX360 FH29 (3) FF35 HF35 KF40 KF43 NF45
EP4SGX530 HH35 (4) KH40 (4) KF43 NF45
Notes to Table 1–2:
(1) Device packages in the same column and marked under the same arrow sign have vertical migration capability.
(2) Use the Pin Migration Viewer in the Pin Planner to verify the pin migration compatibility when migrating devices. For more information, refer to I/O Management in the Quartus II Handbook, Volume 2.
(3) The 780-pin EP4SGX290 and EP4SGX360 devices are available only in 33 mm x 33 mm Hybrid flip chip package.
(4) The 1152-pin and 1517-pin EP4SGX530 devices are available only in 42.5 mm x 42.5 mm Hybrid flip chip packages.
(5) When migrating between hybrid and flip chip packages, there is an additional keep-out area. For more information, refer to the Package Information Datasheet for Altera Devices.
(6) Devices listed in this column are available in –2x, –3, and –4 speed grades. These devices do not have on-package decoupling capacitors.
(7) Devices listed in this column are available in –2, –3, and –4 speed grades. These devices have on-package decoupling capacitors. For more information about on-package decoupling capacitor value
in each device, refer to Table 1–3.
1–14 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Table 13 lists the Stratix IV GX device on-package decoupling information.
Table 1–3. Stratix IV GX Device On-Package Decoupling Information (1)
Ordering Information VCC VCCIO VCCL_GXB VCCA_L/R VCCT and VCCR (Shared)
EP4SGX70 HF35 21uF + 2470nF 10nF per bank (2) 100nF per transceiver block 100nF 1470nF + 147nF per side
EP4SGX110 HF35 21uF + 2470nF 10nF per bank (2) 100nF per transceiver block 100nF 1470nF + 147nF per side
EP4SGX180 HF35
KF40 21uF + 2470nF 10nF per bank (2) 100nF per transceiver block 100nF 1470nF + 147nF per side
EP4SGX230 HF35
KF40 21 uF + 2470 nF 10 nF per bank (2) 100 nF per transceiver block 100 nF 1470 nF + 147 nF
per side
EP4SGX290
HF35
KF40
KF43
NF45
41 uF + 4470 nF 10 nF per bank (2) 100 nF per transceiver block 100nF 1470 nF + 147 nF
per side
EP4SGX360
HF35
KF40
KF43
NF45
41 uF + 4470 nF 10 nF per bank (2) 100 nF per transceiver block 100 nF 1470 nF + 147 nF
per side
EP4SGX530
HH35
KH40
KF43
NF45
41 uF + 4470 nF 10 nF per bank (2) 100 nF per transceiver block 100 nF 1470 nF + 147 nF
per side
Notes to Table 1–3:
(1) Table 1–3 refers to production devices on-package decoupling. For more information about decoupling design of engineering sample (ES) devices, contact Altera Technical Support.
(2) For I/O banks 3(*), 4(*), 7(*), and 8(*) only. There is no OPD for I/O bank 1(*), 2(*), 5(*), and 6(*).
Chapter 1: Overview for the Stratix IV Device Family 1–15
Architecture Features
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
Table 1–4 lists the Stratix IV E device features.
Table 1–4. Stratix IV E Device Features
Feature EP4SE230 EP4SE360 EP4SE530 EP4SE820
Package Pin Count 780 780 1152 1152 1517 1760 1152 1517 1760
ALMs 91,200 141,440 212,480 325,220
LEs 228,000 353,600 531,200 813,050
High-Speed LVDS
SERDES (up to
1.6 Gbps) (1)
56 56 88 88 112 112 88 112 132
SPI-4.2 Links 3 3 4 4 6 4 6 6
M9K Blocks
(256 x 36 bits) 1,235 1,248 1,280 1610
M144K Blocks
(2048 x 72 bits) 22 48 64 60
Total Memory
(MLAB+M9K+
M144K) Kb
17,133 22,564 27,376 33,294
Embedded Multipliers
(18 x 18) (2) 1,288 1,040 1,024 960
PLLs 4 4 8 8 12 12 8 12 12
User I/Os (3) 488 488 744 744 976 976 744 (4) 976 (4) 1120 (4)
Speed Grade
(fastest to slowest) –2, –3, –4 –2, –3, –4 –2, –3, –4 –2, –3, –4 –2, –3, –4 –2, –3, –4 –3, –4 –3, –4 –3, –4
Notes to Table 1–4:
(1) The user I/O count from the pin-out files include all general purpose I/Os, dedicated clock pins, and dual purpose configuration pins. Transceiver pins
and dedicated configuration pins are not included in the pin count.
(2) Four multiplier adder mode.
(3) Total pairs of high-speed LVDS SERDES take the lowest channel count of RX/TX.
(4) This data is preliminary.
1–16 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Table 15 summarizes the Stratix IV E device package options.
Table 16 lists the Stratix IV E on-package decoupling information.
Table 17 lists the Stratix IV GT device features.
Table 1–5. Stratix IV E Device Package Options (1), (2)
Device F780
(29 mm x 29 mm) (5), (6)
F1152
(35 mm x 35 mm) (5), (7)
F1517
(40 mm x 40 mm) (7)
F1760
(42.5 mm x 42.5 mm) (7)
EP4SE230 F29
EP4SE360 H29 (3) F35
EP4SE530 H35 (4) H40 (4) F43
EP4SE820 H35 (4) H40 (4) F43
Notes to Table 1–5:
(1) Device packages in the same column and marked under the same arrow sign have vertical migration capability.
(2) Use the Pin Migration Viewer in the Pin Planner to verify the pin migration compatibility when migrating devices. For more information, refer to
I/O Management in the Quartus II Handbook, Volume 2.
(3) The 780-pin EP4SE360 device is available only in the 33 mm x 33 mm Hybrid flip chip package.
(4) The 1152-pin and 1517-pin for EP4SE530 and EP4SE820 devices are available only in the 42.5 mm x 42.5 mm Hybrid flip chip package.
(5) When migrating between hybrid and flip chip packages, there is an additional keep-out area. For more information, refer to the Package
Information Datasheet for Altera Devices.
(6) Devices listed in this column do not have on-package decoupling capacitors.
(7) Devices listed in this column have on-package decoupling capacitors. For more information about on-package decoupling capacitor value for
each device, refer to Table 1–6.
Table 1–6. Stratix IV E Device On-Package Decoupling Information (1)
Ordering Information VCC VCCIO
EP4SE360 F35 41 uF + 4470 nF 10 nF per bank
EP4SE530
H35
H40
F43
41 uF + 4470 nF 10 nF per bank
EP4SE820
H35
H40
F43
41 uF + 4470 nF 10 nF per bank
Note to Table 1–6:
(1) Table 1–6 refers to production devices on-package decoupling. For more information about decoupling design of engineering sample (ES)
devices, contact Altera Technical Support.
Table 1–7. Stratix IV GT Device Features (Part 1 of 2)
Feature EP4S40G2 EP4S40G5 EP4S100G2 EP4S100G3 EP4S100G4 EP4S100G5
Package Pin Count 1517 1517 1517 1932 1932 1517 1932
ALMs 91,200 212,480 91,200 116,480 141,440 212,480
LEs 228,000 531,200 228,000 291,200 353,600 531,200
Total Transceiver
Channels 36 36 36 48 48 36 48
Chapter 1: Overview for the Stratix IV Device Family 1–17
Architecture Features
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
10G Transceiver
Channels
(600 Mbps - 11.3 Gbps
with PMA + PCS)
12 12 24 24 24 24 32
8G Transceiver
Channels
(600 Mbps - 8.5 Gbps
with PMA + PCS) (1)
12 12 0 8 8 0 0
PMA-only CMU
Channels
(600 Mbps- 6.5 Gbps)
12 12 12 16 16 12 16
PCIe hard IP Blocks 2 2 2 4 4 2 4
High-Speed LVDS
SERDES
(up to 1.6 Gbps) (2)
46 46 46 47 47 46 47
SP1-4.2 Links 2 2 2 2 2 2 2
M9K Blocks
(256 x 36 bits) 1,235 1,280 1,235 936 1,248 1,280
M144K Blocks
(2048 x 72 bits) 22 64 22 36 48 64
Total Memory (MLAB +
M9K + M144K) Kb 17,133 27,376 17,133 17,248 22,564 27,376
Embedded Multipliers
18 x 18 (3) 1,288 1,024 1,288 832 1,024 1,024
PLLs 8 8 8 12 12 8 12
User I/Os (4), (5) 654 654 654 781 781 654 781
Speed Grade
(fastest to slowest) –1, –2, –3 –1, –2, –3 –1, –2, –3 –1, –2, –3 –1, –2, –3 –1, –2, –3 –1, –2, –3
Notes to Table 1–7:
(1) You can configure all 10G transceiver channels as 8G transceiver channels. For example, the EP4S40G2F40 device has twenty-four 8G
transceiver channels and the EP4S100G5F45 device has thirty-two 8G transceiver channels.
(2) Total pairs of high-speed LVDS SERDES take the lowest channel count of RX/TX.
(3) Four multiplier adder mode.
(4) The user I/O count from the pin-out files include all general purpose I/Os, dedicated clock pins, and dual purpose configuration pins. Transceiver
pins and dedicated configuration pins are not included in the pin count.
(5) This data is preliminary.
Table 1–7. Stratix IV GT Device Features (Part 2 of 2)
Feature EP4S40G2 EP4S40G5 EP4S100G2 EP4S100G3 EP4S100G4 EP4S100G5
1–18 Chapter 1: Overview for the Stratix IV Device Family
Architecture Features
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Table 18 lists the resource counts for the Stratix IV GT devices.
Table 19 lists the Stratix IV GT on-package decoupling information.
Table 1–8. Stratix IV GT Device Package Options (1), (2)
Device 1517 Pin
(40 mm x 40 mm) (3)
1932 Pin
(45 mm x 45 mm)
Stratix IV GT 40 G Devices
EP4S40G2 F40
EP4S40G5 H40 (4), (5)
Stratix IV GT 100 G Devices
EP4S100G2 F40
EP4S100G3 — F45
EP4S100G4 — F45
EP4S100G5 H40 (4), (5) F45
Notes to Table 1–8:
(1) This table represents pin compatability; however, it does not include hard IP block placement compatability.
(2) Devices under the same arrow sign have vertical migration capability.
(3) When migrating between hybrid and flip chip packages, there is an additional keep-out area. For more information,
refer to the Altera Device Package Information Data Sheet.
(4) EP4S40G5 and EP4S100G5 devices with 1517 pin-count are only available in 42.5-mm x 42.5-mm Hybrid flip chip
packages.
(5) If you are using the hard IP block, migration is not possible.
Table 1–9. Stratix IV GT Device On-Package Decoupling Information (1)
Ordering
Information VCC VCCIO VCCL_GXB VCCA_L/R VCCT_L/R VCCR_L/R
EP4S40G2F40
EP4S100G2F40 21 uF + 2470 nF 10 nF per bank (2) 100 nF per
transceiver block 100 nF 100 nF 100 nF
EP4S100G3F45
41 uF + 4470 nF 10 nF per bank (2) 100 nF per
transceiver block 100 nF 100 nF 100 nF
EP4S100G4F45
EP4S40G5H40
EP4S100G5H40
EP4S100G5F45
Notes to Table 1–9:
(1) Table 1–9 refers to production devices on-package decoupling. For more information about decoupling design of engineering sample (ES)
devices, contact Altera Technical Support.
(2) For I/O banks 3(*), 4(*), 7(*), and 8(*) only. There is no OPD for I/O bank 1(*), 2(*), 5(*), and 6(*).
Chapter 1: Overview for the Stratix IV Device Family 1–19
Integrated Software Platform
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
Integrated Software Platform
The Quartus II software provides an integrated environment for HDL and schematic
design entry, compilation and logic synthesis, full simulation and advanced timing
analysis, SignalTap II Logic Analyzer, and device configuration of Stratix IV designs.
The Quartus II software provides the MegaWizard Plug-In Manager user interface to
generate different functional blocks, such as memory, PLL, and digital signal
processing logic. For transceivers, the Quartus II software provides the ALTGX
MegaWizard Plug-In Manager interface that guides you through configuration of the
transceiver based on your application requirements.
The Stratix IV GX and GT transceivers allow you to implement low-power and
reliable high-speed serial interface applications with its fully reconfigurable
hardware, optimal signal integrity, and integrated Quartus II software platform.
fFor more information about the QuarJanuary2016tus II software features, refer to the
Quartus II Handbook.
Ordering Information
This section describes the Stratix IV E, GT, and GX devices ordering information.
Figure 1–4 shows the ordering codes for Stratix IV GX and E devices.
Figure 1–4. Stratix IV GX and E Device Packaging Ordering Information
Device Density
Transceiver Count
Package Type
2, 2x, 3, or 4, with 2 being the fastest
Contact Altera for availability
Corresponds to pin count
29 = 780 pins
35 = 1152 pins
40 = 1517 pins
43 = 1760 pins
45 = 1932 pins
F: FineLine BGA (FBGA)
H: Hybrid FineLine BGA
EP4SGX: Stratix IV Transceiver
D: 8
F: 16
H: 24
K: 36
N: 48
EP4SE: Stratix IV Logic/Memory
70
110
180
230
290
360
530
820
Optional SuffixFa m i l y S i g n a t u r e
Operating Temperature
Sp e ed Gr ad e
N: RoHS5
G: RoHS6
Leaded
RoHS
Ball Array Dimension
2EP4SGX 230 CG
40
FK ES
Indicates specific device
options or shipment method
ES: Engineering sample
C: Commercial Temperature (tJ=0° C to 85° C)
I: Industrial Temperature (tJ=–40° C to 100° C)
M: Military Temperature (tJ=–55° C to 125° C)
1–20 Chapter 1: Overview for the Stratix IV Device Family
Ordering Information
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1
Figure 1–5 shows the ordering codes for Stratix IV GT devices.
Document Revision History
Table 110 lists the revision history for this chapter.
Figure 1–5. Stratix IV GT Device Packaging Ordering Information
o
Device Density
Package Type
1, 2, 3 with 1 being the fastest
Corresponds to pin count
40 = 1517 pins
45 = 1932 pins
F: FineLine BGA (FBGA)
H: Hybrid FineLine BGA
2 = 230k LEs
3 = 290k LEs
4 = 360k LEs
5 = 530k LEs
C: Commercial temperature (tJ=0 Cto85 C)
In dust ri al t em perat u re (t J= 0°C to 100°C)
Optional SuffixFa m i l y S i g n a t u r e
Operating Temperat ure
Sp eed Grade
Ball Array Dimension
2
EP4S 230 C
40
FES
Indicates specific device opt ions
N: Lead-free devices
I:
ES: Engineering sample
Aggregate Bandwidth
EP4S 240G
40G
100G
Table 1–10. Document Revision History (Part 1 of 2)
Date Version Changes
January 2016 3.5 Updated Figure 1–4 with new RoHS information
September 2012 3.4
Updated Table 1–1 to close FB #30986.
Updated Table 1–2 and Table 1–5 to close FB #31127.
June 2011 3.3 Added military temperature to Figure 1–4.
February 2011 3.2
Updated Table 1–7 and Table 1–8.
Applied new template.
Minor text edits.
March 2010 3.1
Updated Table 1–1, Table 1–2, and Table 1–7.
Updated Figure 1–3.
Updated the “Stratix IV GT Devices” section.
Added two new references to the Introduction section.
Minor text edits.
Chapter 1: Overview for the Stratix IV Device Family 1–21
Ordering Information
January 2016 Altera Corporation Stratix IV Device Handbook
Volume 1
November 2009 3.0
Updated the “Stratix IV Device Family Overview”, “Feature Summary”, “Stratix IV GT
Devices”, “High-Speed Transceiver Features”, “FPGA Fabric and I/O Features”, “Highest
Aggregate Data Bandwidth”, “System Integration”, and “Integrated Software Platform”
sections.
Added Table 1–3, Table 1–6, and Table 1–9.
Updated Table 1–1, Table 1–2, Table 1–4, Table 1–5, Table 1–7, and Table 1–8.
Updated Figure 1–3, Figure 1–4, and Figure 1–5.
Minor text edits.
June 2009 2.4
Updated Table 1–1.
Minor text edits.
April 2009 2.3
Added Table 1–5, Table 1–6, and Figure 1–3.
Updated Figure 1–5.
Updated Table 1–1, Table 1–2, Table 1–3, and Table 1–4.
Updated “Introduction”, “Feature Summary”, “Stratix IV GX Devices”, “Stratix IV GT
Devices”, “Architecture Features”, and “FPGA Fabric and I/O Features”
March 2009 2.2
Updated “Feature Summary”, “Stratix IV GX Devices”, “Stratix IV E Device”, “Stratix IV
GT Devices”, “Signal Integrity”
Removed Tables 1-5 and 1-6
Updated Figure 1–4
March 2009 2.1
Updated “Introduction”, “Feature Summary”, “Stratix IV Device Diagnostic Features”,
“Signal Integrity”, “Clock Networks”,“High-Speed Differential I/O with DPA and Soft-
CDR”, “System Integration”, and “Ordering Information” sections.
Added “Stratix IV GT 100G Devices” and “Stratix IV GT 100G Transceiver Bandwidth”
sections.
Updated Table 1–1, Table 1–2, Table 1–3, and Table 1–4.
Added Table 1–5 and Table 1–6.
Updated Figure 1–3 and Figure 1–4.
Added Figure 1–5.
Removed “Referenced Documents” section.
November 2008 2.0
Updated “Feature Summary” on page 1–1.
Updated “Stratix IV Device Diagnostic Features” on page 1–7.
Updated “FPGA Fabric and I/O Features” on page 1–8.
Updated Table 1–1.
Updated Table 1–2.
Updated “Table 1–5 shows the total number of transceivers available in the Stratix IV GT
Device.” on page 1–15.
July 2008 1.1 Revised “Introduction”.
May 2008 1.0 Initial release.
Table 1–10. Document Revision History (Part 2 of 2)
Date Version Changes
1–22 Chapter 1: Overview for the Stratix IV Device Family
Ordering Information
Stratix IV Device Handbook January 2016 Altera Corporation
Volume 1