@@ Line 1: / Line 1: @@
-=Chapter 1 DE10-Advanced Development Kit=
+*[[DE10-Advance_document_revB|DE10-Advanced Document Rev C]]
-Terasic A10SOC is a kind of the best SoC FPGA development platform with various advanced interfaces. It built around the Intel Arria 10 SoC FPGA, which combines the dual-core ARM Cortex A9 CPU and provides 660K LEs. A10SOC has many peripherals, it can transfer data to PC with a high speed through PCIEx4 GEN3 and Type-C USB connector. The four SFP interfaces and Gigabit Ethernet port can be used in network application. HDMI 2.0 output and the two DDR4 SODIMMs allow users to deal with high bandwidth of image. A10SOC provides a FMC connector, it can extend more development space. Generally speaking, A10SoC has powerful computing and interface processing capacity, it must be the best choice for Network Communication, High Performance Computing, Image Processing and other applications.
-==Package Contents==
-The DE10-Advanced package includes:
-*The DE10-Advanced board
-*Quick Start Guide
-*TBD
-==DE10-Advanced System CD==
-The DE10-Advanced System CD contains all the documents and supporting materials associated with DE10-Advanced, including the user manual, system builder, reference designs, and device datasheets. Users can download this system CD from the link: http://DE10-Advanced.terasic.com/cd.
-==Getting Help==
-Here are the addresses where you can get help if you encounter any problems:
-Terasic Technologies
-F., No.176, Sec.2, Gongdao 5th Rd, East Dist, Hsinchu City, 30070. Taiwan
-Email: support@terasic.com
-Tel.: +886-3-575-0880
-Website: DE10-Advanced.terasic.com
-=Chapter 2 Introduction of the DE10-Advanced Board=
-This chapter provides an introduction to the features and design characteristics of the board.
-==Layout and Components==
-Figure 2-1 and Figure 2-2 shows a photograph of the board. It depicts the layout of the board and indicates the location of the connectors and key components.
-[[File:De10-ad1.jpg|700px]]
-:::::::Figure 2-1 DE10-Advanced development board (top view)
-::::[[File:De10-ad2.jpg|600px]]
-::::::Figure 2-2 DE10-Advanced development board (bottom view)
-The DE10-Advanced board has many features that allow users to implement a wide range of designed circuits, from simple circuits to various multimedia projects.
-The following hardware is provided on the board:
-*FPGA
-**USB Type-C Interface: Power Delivery, DisplayPort TX/RX with 4 lanes, USB 3.0/2.0
-**HDMI TX 2.0 for 4K2K@60. Use FPGA Transceivers
-**PCIe Cabling Socket at Gen3 x4
-**SFP+ Socket x4,40Gbps
-**SATA 3.0 Host and SATA Device x2 (SATA connector x4)
-**High Pin Count FMC Connector with transceivers. Support VADJ 1.2V/1.5V/1.8V only
-**One Gigabit Ethernet Port
-**On-Board 32-bit DDR4 with ECC
-**DDR4 SO-DIMM Socket with ECC (up to 1066.667 MHz)
-**Accelerometer, Gyroscope, Magnetometer (MPU9250)
-**EPCQ1024L Serial Flash for Configuration and User Data
-**Fixed and Programmable clock source for user logic, user interface, transceiver and memory
-**Temperature Sensor,I2C Fan Control
-**SMA Clock-In and Clock-Out.Support 1.8V I/O Standard
-**LED x2, KEY x2, Switch x2, 7-Segment x2
-*HPS(Hard Processor System)
-**Boost Flash Slot for booting daughter card:1024 Mb QSPI Flash, NAND flash, MicroSD Socket
-**DDR4 SO-DIMM Socket with ECC (up to 1066.667 MHz)
-**Giga Ethernet with RJ45 connector
-**USB OTG,Mini-AB USB connector
-**UART-to-USB,Mini-B USB connector
-**RTC
-**LED x1, KEY x1
-**Cold Reset and Warm Reset
-==Block Diagram of the DE10-Advanced Board==
-Figure 2-3 is the block diagram of the board. All the connections are established through the Arria 10 SoC FPGA device to provide maximum flexibility for users.
-Users can configure the FPGA to implement any system design.
-[[File:De10-ad3.jpg|900px]]
-::::::::::::::Figure 2-2 Block diagram of DE10-Advanced
-Detailed information about Figure 2-2 are listed below.
-Arria 10 SoC 10AS066K3F40E2SG/10AS057K3F40E2SG FPGA
-*Dual-core ARM Cortex-A9 (HPS)
-*660K programmable logic elements
-*42,660 Kbits embedded memory
-*Hard memory controllers x5
-*Transceivers x48(17.4 Gbps)
-*18-bit x 19-bit multipliers x3,356
-*Accelerometer & Gyroscope Device MPU9250
-Configuration
-*EPCQ512 Serial Configuration Device
-*Onboard USB-Blaster II (Mini-B USB connector)
-Memory Device
-*32GB DDR4 SDRAM on FPGA
-*Two DDR4 SO-DIMM SDRAM socket
-*Micro SD card socket
-*1024Mb QSPI Flash
-Communication
-*USB OTG (Mini-AB USB connector)
-*UART-to-USB (Mini-B USB Connector)
-*Giga Ethernet x2
-*PCIe Gen3 x4 Cabling Socket
-FMC connector
-*one HPC(high-pin count) FMC connector with xcvr
-*Adjustable VADJ:1.2V/1.5V/1.8V
-*FMC Vita57.1 Standard
-SDI connectors
-*Two 12G-SDI connectors for SDI in and out
-SMA connectors
-*Two SMA connectors for SMA Clock-In and Clock-Out
-*Support 1.8V I/O Standard
-General user input/output
-*Buttons x3 (FPGA x2, HPS x1)
-*Switches x2 on FPGA
-*LEDs x3 (FPGA x2, HPS x1)
-*7-segment displays x2
-System Monitor and Control
-*Temperature Sensor on FPGA
-*12V Power Monitor
-*Power Controller
-*I2C Fan Control
-Power
-*12V DC input
-=Chapter 3 Board Setting and Status component=
-==Header==
-==Switches==
-==LED==
-=Chapter 4 FPGA Fabric component=
-==USB Type C Port==
-USB Type-C is the new USB-IF standard that solves several challenges. It provides up to 100W power, so this board can be powered by USB type-C source and also can play a role as a USB power provider (To charge a NB or any USB type-C device up to 12V@3A). The bandwidth is double, increasing to 10Gbps with SuperSpeed+ USB3.1, and it combines multiple protocols in single cable, including DP and PCIe. And the connector is a reversible-plug connector which will be easier to use. Figure 4-1 shows the connections of USB Type C Port.Table 4-1 list the USB Type C Port assignments and signal names relative to the Arria 10 SoC FPGA.<br/>
-:::[[File:USB.png|900px]]<br/>
-::::::::::::::Figure 4-1 USB Type C Port connections<br/><br/><br/>
-Table 4-1 USB Type C Port Pin Assignments, Signal Names and Functions
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|USBFX3_RESET_n	||PIN_AJ24||		||1.8V
-|-
-|USBFX3_PCLK	||PIN_AT27||		||1.8V
-|-
-|USBFX3_CTL0_SLCS_n	||PIN_AV26||		||1.8V
-|-
-|USBFX3_UART_TX	||PIN_AP23||		||1.8V
-|-
-|USBFX3_UART_RX	||PIN_AU27||		||1.8V
-|-
-|USBFX3_CTL10	||PIN_AU24||		||1.8V
-|-
-|USBFX3_CTL11_A1	||PIN_AU22||		||1.8V
-|-
-|USBFX3_CTL12_A0	||PIN_AT23||		||1.8V
-|-
-|USBFX3_CTL15_INT_n	||PIN_AW21||		||1.8V
-|-
-|USBFX3_CTL1_SLWR_n	||PIN_AT22||		||1.8V
-|-
-|USBFX3_CTL2_SLOE_n	||PIN_AT25||		||1.8V
-|-
-|USBFX3_CTL3_SLRD_n	||PIN_AR27||		||1.8V
-|-
-|USBFX3_CTL4_FLAGA	||PIN_AN22||		||1.8V
-|-
-|USBFX3_CTL5_FLAGB	||PIN_AN23||		||1.8V
-|-
-|USBFX3_CTL6	||PIN_AL24|| 		||1.8V
-|-
-|USBFX3_CTL7_PKTEND_n	||PIN_AL25||   ||1.8V
-|-
-|USBFX3_CTL8	||PIN_AV21||		||1.8V
-|-
-|USBFX3_CTL9	||PIN_AV22||		||1.8V
-|-
-|USBFX3_DQ[0]	||PIN_AU21||		||1.8V
-|-
-|USBFX3_DQ[1]	||PIN_AW23||		||1.8V
-|-
-|USBFX3_DQ[2]	||PIN_AW24||		||1.8V
-|-
-|USBFX3_DQ[3]	||PIN_AW25||		||1.8V
-|-
-|USBFX3_DQ[4]	||PIN_AW26||		||1.8V
-|-
-|USBFX3_DQ[5]	||PIN_AV24||		||1.8V
-|-
-|USBFX3_DQ[6]	||PIN_AW28||		||1.8V
-|-
-|USBFX3_DQ[7]	||PIN_AW30||		||1.8V
-|-
-|USBFX3_DQ[8]	||PIN_AW29||		||1.8V
-|-
-|USBFX3_DQ[9]	||PIN_AV27||		||1.8V
-|-
-|USBFX3_DQ[10]	||PIN_AV28||		||1.8V
-|-
-|USBFX3_DQ[11]	||PIN_AU26||		||1.8V
-|-
-|USBFX3_DQ[12]	||PIN_AV23||		||1.8V
-|-
-|USBFX3_DQ[13]	||PIN_AU25||		||1.8V
-|-
-|USBFX3_DQ[14]	||PIN_AR25||		||1.8V
-|-
-|USBFX3_DQ[15]	||PIN_AP24||		||1.8V
-|-
-|USBFX3_DQ[16]	||PIN_AL23||		||1.8V
-|-
-|USBFX3_DQ[17]	||PIN_AM24||		||1.8V
-|-
-|USBFX3_DQ[18]	||PIN_AK25||		||1.8V
-|-
-|USBFX3_DQ[19]	||PIN_AM25||		||1.8V
-|-
-|USBFX3_DQ[20]	||PIN_AT24||		||1.8V
-|-
-|USBFX3_DQ[21]	||PIN_AR26||		||1.8V
-|-
-|USBFX3_DQ[22]	||PIN_AP26||		||1.8V
-|-
-|USBFX3_DQ[23]	||PIN_AP25||		||1.8V
-|-
-|USBFX3_DQ[24]	||PIN_AN24||		||1.8V
-|-
-|USBFX3_DQ[25]	||PIN_AN26||		||1.8V
-|-
-|USBFX3_DQ[26]	||PIN_AK23||		||1.8V
-|-
-|USBFX3_DQ[27]	||PIN_AJ25||		||1.8V
-|-
-|USBFX3_DQ[28]	||PIN_AJ23||		||1.8V
-|-
-|USBFX3_DQ[29]	||PIN_AH23||		||1.8V
-|-
-|USBFX3_DQ[30]	||PIN_AR20||		||1.8V
-|-
-|USBFX3_DQ[31]	||PIN_AP20||		||1.8V
-|}
-==Gigabit Ethernet==
-The development board supports one RJ45 10/100/1000 base-T Ethernet using Marvell 88E1111. SGMII AC coupling interface is used between PHY and FPGA transceiver.The device is an auto-negotiating Ethernet PHY with an SGMII interface to the FPGA. The Arria 10 SoC FPGA can communicate with the LVDS interfaces at up to 1.6 Gbps, which is faster than 1.25 Gbps for SGMII. The MAC function must be provided in the FPGA for typical networking applications. The Marvell 88E1111 PHY uses 2.5-V and 1.1-V power rails and requires a 25MHz reference clock driven from a dedicated oscillator. It interfaces to an RJ-45 with internal magnetics for driving copper lines with Ethernet traffic.Figure 4-2 shows the SGMII interface between the FPGA and Marvell 88E1111 PHY. Table 4-2 lists the Ethernet PHY interface pin assignments.
-::::[[File:Ethernet.jpg]]<br/>
-:::::::::::Figure 4-2 SGMII Interface between FPGA and Marvell 88E1111 PHY
-:Table 4-2 Ethernet PHY Pin Assignments, Signal Names and Functions
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|ETH_TX_p	||PIN_AP19||SGMII TX data		||LVDS
-|-
-|ETH_RX_p	||PIN_AM20||SGMII RX data		||LVDS
-|-
-|ETH_INT_n	||PIN_AU19||Management bus interrupt		||1.8V
-|-
-|ETH_MDC	||PIN_AT19||Management bus control		||1.8V
-|-
-|ETH_MDIO	||PIN_AJ20||Management bus data		||1.8V
-|-
-|ETH_RST_n	||PIN_AK20||Device reset		||1.8V
-|}
-==SFP+ Connector==
-The development board has four independent 10G SFP+ connectors that use one transceiver channel each from the Arria 10 SoC FPGA device. These modules take in serial data from the Arria 10 SoC FPGA device and transform them to optical signals. The board includes cage assemblies for the SFP+ connectors.Figure 4-3 shows the connections between the SFP+ and Arria 10 SoC FPGA.<br/>
-:::::[[File:De10-ad SFP.jpg|600px]]
-::::::::Figure 4-3 Connection between the SFP+ and Arria 10 SoC FPGA<br/><br/>
-Table 4-3, Table 4-4, Table 4-5 and Table 4-6 list the four QSF+ connectors assignments and signal names relative to the Arria 10 SoC FPGA<br/>
-::::::Table 4-3 SFP+ A Pin Assignments, Signal Names and Functions
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|SFPA_TXDISABLE	||PIN_W28||Turns off and disables the transmitter output		||1.2 V
-|-
-|SFPA_TXFAULT	||PIN_T28 ||Transmitter fault		||1.2 V
-|-
-|SFPA_TX_p	||PIN_AG37||Transmiter data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPA_RX_p	||PIN_AD35 ||Receiver data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPA_LOS	||PIN_G27||Signal loss indicator		||1.2 V
-|-
-|SFPA_MOD0_PRSNT_n||	PIN_K27||Module present 		||1.2 V
-|}
-::::::Table 4-4 SFP+ B Pin Assignments, Signal Names and Functions
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|SFPB_TXDISABLE	||PIN_B22||Turns off and disables the transmitter output		||1.2 V
-|-
-|SFPB_TXFAULT	||PIN_F15||Transmitter fault		||1.2 V
-|-
-|SFPB_TX_p	||PIN_AF39||Transmiter data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPB_RX_p	||PIN_AC37||Receiver data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPB_LOS	||PIN_K16||Signal loss indicator		||1.2 V
-|-
-|SFPB_MOD0_PRSNT_n	||PIN_Y27||Module present		||1.2 V
-|}
-::::::Table 4-5 SFP+ C Pin Assignments, Signal Names and Functions
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|SFPC_TXDISABLE	||PIN_AN6||Turns off and disables the transmitter output		||1.2 V
-|-
-|SFPC_TXFAULT	||PIN_AE10||Transmitter fault		||1.2 V
-|-
-|SFPC_TX_p	||PIN_AE37||Transmiter data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPC_RX_p	||PIN_AC33||Receiver data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPC_LOS	||PIN_AW3||Signal loss indicator		||1.2 V
-|-
-|SFPC_MOD0_PRSNT_n	||PIN_AP3||Module present		||1.2 V
-|}
-::::::Table 4-6 SFP+ D Pin Assignments, Signal Names and Functions
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|SFPD_TXDISABLE	||PIN_M1||Turns off and disables the transmitter output		||1.2 V
-|-
-|SFPD_TXFAULT	||PIN_M4||Transmitter fault		||1.2 V
-|-
-|SFPD_TX_p	||PIN_AD39||Transmiter data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPD_RX_p	||PIN_AB35||Receiver data		||HSSI DIFFERENTIAL I/O
-|-
-|SFPD_LOS	||PIN_T2||Signal loss indicator		||1.2 V
-|-
-|SFPD_MOD0_PRSNT_n	||PIN_V7||Module present		||1.2 V
-|-
-|SFP_REFCLK_p	||PIN_AD31||SFP reference clock		||LVDS
-|-
-|SFP_MOD1_SCL	||PIN_AK26||Serial 2-wire clock		||1.2 V
-|-
-|SFP_MOD2_SDA	||PIN_AE25||Serial 2-wire data		||1.2 V
-|}
-==SATA==
-The four Serial ATA (SATA) ports are available on the FPGA development board which are computer bus standard with a primary function of transferring data between the motherboard and mass storage devices (such as hard drives, optical drives, and solid-state disks). Supporting a storage interface is just one of many different applications for which an FPGA can be used in storage appliances. The Arria 10 SoC device can bridge different protocols such as bridging simple bus I/Os like PCI Express (PCIe) to SATA or network interfaces such as Gigabit Ethernet (GbE) to SATA.<br/>The SATA interface supports SATA 3.0 standard with connection speed of 6 Gbps based on  Arria 10 SoC device with integrated transceivers compliant to SATA electrical standards.
-The two Serial ATA (SATA) ports include one available port for device and one available port for host capable of implementing SATA solution with a design that consists of both host and target (device side) functions.Figure 4-4 shows the connections between the SATA and Arria 10 SoC FPGA. Table 4-7 list the SATA pin assignments and signal names relative to the Arria 10 SoC FPGA.<br/>
-::::[[File:De10-ad SATA.jpg|500px]]<br/>
-:::::Figure 4-4 Connection between the SATA and Arria 10 SoC FPGA<br/><br/>
-:::::Table 4-7 SATA Pin Assignments,Signal Names and Functions<br/>
-:{| class="wikitable"
-  |-
-  !<font size="3"><font face="Times New Roman">Signal Name</font></font>!!<font size="3"><font face="Times New Roman">FPGA Pin Number</font></font>!!<font size="3"><font face="Times New Roman">Description</font></font>!!<font size="3"><font face="Times New Roman">I/O Standard</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_HOST_REFCLK_p</font></font>||<font size="3"><font face="Times New Roman">PIN_V31</font></font>||<font size="3"><font face="Times New Roman">SATA Host reference clock</font></font>||<font size="3"><font face="Times New Roman">LVDS</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_HOST_TX_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_P39</font></font>||<font size="3"><font face="Times New Roman">SATA Host transmitter data p[0]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_HOST_TX_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_N37</font></font>||<font size="3"><font face="Times New Roman">SATA Host transmitter data p[1]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_HOST_RX_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_U33</font></font>||<font size="3"><font face="Times New Roman">SATA Host Receiver data p[0]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_HOST_RX_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_T35</font></font>||<font size="3"><font face="Times New Roman">SATA Host Receiver data p[1]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_DEVICE_REFCLK_p</font></font>||<font size="3"><font face="Times New Roman">PIN_M31</font></font>||<font size="3"><font face="Times New Roman">SATA Device reference clock</font></font>||<font size="3"><font face="Times New Roman">LVDS</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_DEVICE_TX_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_B39</font></font>||<font size="3"><font face="Times New Roman">SATA Device transmitter data p[0]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_DEVICE_TX_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_A37</font></font>||<font size="3"><font face="Times New Roman">SATA Device transmitter data p[1]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_DEVICE_RX_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_D35</font></font>||<font size="3"><font face="Times New Roman">SATA Device Receiver data p[0]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">SATA_DEVICE_RX_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_B35</font></font>||<font size="3"><font face="Times New Roman">SATA Device Receiver data p[1]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |}
-==PCIe==
-The DE10-Advanced development board features one PCIe Express downstream interfaces (x4 lane) which are designed to interface with a PC motherboard x4 slot via PCIe cable and PCIe adapter card. Utilizing built-in transceivers on a Arria 10 SoC device, it is able to provide a fully integrated PCI Express compliant solution for multi-lane (x4) applications. With the PCI Express hard IP block incorporated in the Arria 10 SoC device, it will allow users to implement simple and fast protocols, as well as saving logic resources for logic applications.
-The PCI Express interface supports complete PCI Express Gen1 at 2.5Gbps/lane, Gen2 at 5.0Gbps/lane, and Gen3 at 8.0Gbps/lane protocol stack solution compliant to PCI Express base specification 3.0 that includes PHY-MAC, Data Link, and transaction layer circuitry embedded in PCI Express hard IP blocks.
-To use PCIe interface, two external associated devices will be needed to establish a link with PC. First, a PCIe half-height add-in host card with a PCIe x4 cable connector called PCA (PCIe Cabling Adapter Card and see Figure 4-5, it will be used to plug into the PCIe slot on a mother board.<br/>
-::::[[File:PCA.jpg|200px]]<br/>
-::::Figure 4-5 PCIe Cabling Adapter Card<br/>
-Then,a PCIe x4 cable(See Figure 4-6) will be used to connect DE10-Advanced board and PCIe add-in card, the longest length is up to 3 meters.<br/>
-::::[[File:PCA Cable.jpg|300px]]<br/>
-::::::Figure 4-6 PCIe x4 cable<br/>
-PCI Express Pin Connection is showed in Figure 4-7.<br/>
-[[File:PCIe.jpg|500px]]<br/>
-:::::Figure 4-7 PCI Express Pin Connection
-<br/>These two associated devices are not included in DE10-Advanced board. To purchase the PCA card as well as the external cable, please refer to Terasic website pca.terasic.com and PCIe_Cable.terasic.com.Table 4-8 summarizes the PCI Express pin assignments of the signal names relative to the Arria 10 SoC FPGA.<br/>
-::::Table 4-7 PCIe Pin Assignments,Signal Names and Functions
- :{| class="wikitable"
-  |-
-  !<font size="3"><font face="Times New Roman">Signal Name</font></font>!!<font size="3"><font face="Times New Roman">FPGA Pin Number</font></font>!!<font size="3"><font face="Times New Roman">Description</font></font>!!<font size="3"><font face="Times New Roman">I/O Standard</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_REFCLK_p</font></font>||<font size="3"><font face="Times New Roman">PIN_AH31</font></font>||<font size="3"><font face="Times New Roman">PCIe reference clock</font></font>||<font size="3"><font face="Times New Roman">LVDS</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_TX_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_AR37</font></font>||<font size="3"><font face="Times New Roman">PCIe Transmitter data p0</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_TX_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_AP39</font></font>||<font size="3"><font face="Times New Roman">PCIe Transmitter data p1</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_TX_p[2]</font></font>||<font size="3"><font face="Times New Roman">PIN_AN37</font></font>||<font size="3"><font face="Times New Roman">PCIe Transmitter data p2</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_TX_p[3]</font></font>||<font size="3"><font face="Times New Roman">PIN_AM39</font></font>||<font size="3"><font face="Times New Roman">PCIe Transmitter data p3</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_RX_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_AL33</font></font>||<font size="3"><font face="Times New Roman">PCIe Receiver data p0</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_RX_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_AM35</font></font>||<font size="3"><font face="Times New Roman">PCIe Receiver data p1</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_RX_p[2]</font></font>||<font size="3"><font face="Times New Roman">PIN_AJ33</font></font>||<font size="3"><font face="Times New Roman">PCIe Receiver data p2</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_RX_p[3]</font></font>||<font size="3"><font face="Times New Roman">PIN_AK35</font></font>||<font size="3"><font face="Times New Roman">PCIe Receiver data p3</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_PERST_n</font></font>||<font size="3"><font face="Times New Roman">PIN_AW20</font></font>||<font size="3"><font face="Times New Roman">PCIe present,active low</font></font>||<font size="3"><font face="Times New Roman">1.8 V</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">PCIE_WAKE_n</font></font>||<font size="3"><font face="Times New Roman">PIN_AL19</font></font>||<font size="3"><font face="Times New Roman">PCIe wake</font></font>||<font size="3"><font face="Times New Roman">1.8 V</font></font>
-  |}
-==DDR4 SO-DIMM Socket==
-The development board supports DDR4 SDRAM SO-DIMM. The DDR4 SODIMM socket is wired to support a maximum capacity of 8GB with a 64-bit data bus. Using differential DQS signaling for the DDR4 SDRAM interfaces, it is capable of running at up to 1067MHz memory clock. It also supports Terasic QDRII+ module and RLDRAM3 module.Figure 4-8 shows the connections between the DDR4 SDRAM SO-DIMM and Arria 10 SoC FPGA.The pin assignments for DDR4 SDRAM SO-DIMM are listed in Table 4-8.<br/>
-::::[[File:DDR4-DE10-AD.jpg|500px]]
-::::Figure 4-8 Connection between DDR4 SDRAM SO-DIMM and Arria 10 SoC FPGA<br/>
-:::::Table 4-8 DDR4 SO-DIMM Socket Pin Assignments,Signal Names and Functions
-:{| class="wikitable"
-  |-
-!FPGA Pin Number	!! Signal Name	!!Description	!!I/O Standard
-|-
-|PIN_AB12	 ||DDR4A_REFCLK_p||	DDR4A reference clock	||LVDS
-|-
-|PIN_AC1 	 ||DDR4A_A[0]||	Address [0]	||SSTL-12
-|-
-|PIN_AB1 	|| DDR4A_A[1]	||Address [1]	||SSTL-12
-|-
-|PIN_AB4 	 ||DDR4A_A[2]||	Address [2]	||SSTL-12
-|-
-|PIN_AA5 	 ||DDR4A_A[3]||	Address [3]	||SSTL-12
-|-
-|PIN_AA3 	 ||DDR4A_A[4]||	Address [4]	||SSTL-12
-|-
-|PIN_AA4 	 ||DDR4A_A[5]||	Address [5]	||SSTL-12
-|-
-|PIN_Y2  	|| DDR4A_A[6]||	Address [6]	||SSTL-12
-|-
-|PIN_AA2 	 ||DDR4A_A[7]||	Address [7]	||SSTL-12
-|-
-|PIN_AB5 	|| DDR4A_A[8]||	Address [8]	||SSTL-12
-|-
-|PIN_AB6 	|| DDR4A_A[9]||	Address [9]	||SSTL-12
-|-
-|PIN_W5  	||DDR4A_A[10]||	Address [10]	||SSTL-12
-|-
-|PIN_Y5  	||DDR4A_A[11]||	Address [11]	||SSTL-12
-|-
-|PIN_AA9 	||DDR4A_A[12]||	Address [12]	||SSTL-12
-|-
-|PIN_AB7 	||DDR4A_A[13]||	Address [13]	||SSTL-12
-|-
-|PIN_AA7 	||DDR4A_A[14]||	Address [14]	||SSTL-12
-|-
-|PIN_AB10	||DDR4A_A[15]||	Address [15]	||SSTL-12
-|-
-|PIN_AB11	||DDR4A_A[16]||	Address [16]	||SSTL-12
-|-
-|PIN_Y7  	||DDR4A_BA[0]||	Bank Address [0]	||SSTL-12
-|-
-|PIN_AB9 	||DDR4A_BA[1]||	Bank Address [1]	||SSTL-12
-|-
-|PIN_AA10	||DDR4A_BG[0]||	Bank Group Inputs[0]	||SSTL-12
-|-
-|PIN_AE2 	||DDR4A_BG[1]||	Bank Group Inputs[1]	||SSTL-12
-|-
-|PIN_AD3 	||DDR4A_CK||	Clock 	||DIFFERENTIAL 1.2-V SSTL
-|-
- |PIN_AD4	 ||DDR4A_CK_n||	Clock 	||DIFFERENTIAL 1.2-V SSTL
-|-
-|PIN_AC2	|| DDR4A_CKE||	Clock Enable pin 0	||SSTL-12
-|-
-|PIN_AE8 	||DDR4A_DQS[0]	||Data Strobe p[0]	||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AF7 	||DDR4A_DQS[1]||Data Strobe p[1]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AN1 	||DDR4A_DQS[2]||Data Strobe p[2]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AH2 	||DDR4A_DQS[3]||Data Strobe p[3]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_P1  	||DDR4A_DQS[4]||Data Strobe p[4]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_J3  	||DDR4A_DQS[5]||Data Strobe p[5]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_R5  	||DDR4A_DQS[6]||Data Strobe p[6]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_V9  	||DDR4A_DQS[7]||Data Strobe p[7]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_V2  	||DDR4A_DQS[8]||Data Strobe p[8]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AD8 	||DDR4A_DQS_n[0]||	Data Strobe n[0]	||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AE7 	||DDR4A_DQS_n[1]||Data Strobe n[1]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AN2 	||DDR4A_DQS_n[2]||	Data Strobe n[2]	||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AH3 	||DDR4A_DQS_n[3]||	Data Strobe n[3]	||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_R1  	||DDR4A_DQS_n[4]||Data Strobe n[4]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_K3  	||DDR4A_DQS_n[5]||	Data Strobe n[5]	||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_R6  	||DDR4A_DQS_n[6]||Data Strobe n[6]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_W9  	||DDR4A_DQS_n[7]||	Data Strobe n[7]	||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_V3  	||DDR4A_DQS_n[8]||Data Strobe n[8]		||DIFFERENTIAL 1.2-V POD
-|-
-|PIN_AC11	|| DDR4A_DQ[0]	||Data [0]	||1.2-V POD
-|-
-|PIN_AD10	|| DDR4A_DQ[1]||	Data [1]	||1.2-V POD
-|-
-|PIN_AC9 	|| DDR4A_DQ[2]||	Data [2]	||1.2-V POD
-|-
-|PIN_AG7 	|| DDR4A_DQ[3]||	Data [3]	||1.2-V POD
-|-
-|PIN_AD13	|| DDR4A_DQ[4]||	Data [4]	||1.2-V POD
-|-
-|PIN_AD11	|| DDR4A_DQ[5]||	Data [5]	||1.2-V POD
-|-
-|PIN_AC8 	 ||DDR4A_DQ[6]||	Data [6]	||1.2-V POD
-|-
-|PIN_AF8 	 ||DDR4A_DQ[7]	||Data [7]	||1.2-V POD
-|-
-|PIN_AE6 	|| DDR4A_DQ[8]||	Data [8]	||1.2-V POD
-|-
-|PIN_AJ6 	|| DDR4A_DQ[9]	||Data [9]	||1.2-V POD
-|-
-|PIN_AG6 	||DDR4A_DQ[10]||	Data [10]	||1.2-V POD
-|-
-|PIN_AD6 	||DDR4A_DQ[11]	||Data [11]	||1.2-V POD
-|-
-|PIN_AG5 	||DDR4A_DQ[12]||Data [12]		||1.2-V POD
-|-
-|PIN_AK5 	||DDR4A_DQ[13]||	Data [13]	||1.2-V POD
-|-
-|PIN_AC7 	||DDR4A_DQ[14]	||Data [14]  ||1.2-V POD
-|-
-|PIN_AH6 	||DDR4A_DQ[15]	||Data [15]	||1.2-V POD
-|-
-|PIN_AK1 	||DDR4A_DQ[16]||	Data [16]	||1.2-V POD
-|-
-|PIN_AL4 	||DDR4A_DQ[17]||	Data [17]	||1.2-V POD
-|-
-|PIN_AJ4 	||DDR4A_DQ[18]	||Data [18]	||1.2-V POD
-|-
-|PIN_AM1 	||DDR4A_DQ[19]||	Data [19]	||1.2-V POD
-|-
-|PIN_AK3 	||DDR4A_DQ[20]||Data [20]		||1.2-V POD
-|-
-|PIN_AL2 	||DDR4A_DQ[21]||	Data [21]	||1.2-V POD
-|-
-|PIN_AJ3 	||DDR4A_DQ[22]	||Data [22]	||1.2-V POD
-|-
-|PIN_AM2 	||DDR4A_DQ[23]||	Data [23]	||1.2-V POD
-|-
-|PIN_AF2 	||DDR4A_DQ[24]||	Data [24]	||1.2-V POD
-|-
-|PIN_AH1 	||DDR4A_DQ[25]	||	Data [25]||1.2-V POD
-|-
-|PIN_AG4 	||DDR4A_DQ[26]||	Data [26]	||1.2-V POD
-|-
-|PIN_AE5 	||DDR4A_DQ[27]||	Data [27]	||1.2-V POD
-|-
-|PIN_AF3 	||DDR4A_DQ[28]||	Data [28]	||1.2-V POD
-|-
-|PIN_AH4 	||DDR4A_DQ[29]||	Data [29]	||1.2-V POD
-|-
-|PIN_AG1 	||DDR4A_DQ[30]||	Data [30]	||1.2-V POD
-|-
-|PIN_AF4 	||DDR4A_DQ[31]||	Data [31]	||1.2-V POD
-|-
-|PIN_K1  	||DDR4A_DQ[32]	||	Data [32]||1.2-V POD
-|-
-|PIN_P4  	||DDR4A_DQ[33]	||	Data [33]||1.2-V POD
-|-
-|PIN_N2  	||DDR4A_DQ[34]||	Data [34]	||1.2-V POD
-|-
-|PIN_K2  	||DDR4A_DQ[35]||	Data [35]	||1.2-V POD
-|-
-|PIN_M2  	||DDR4A_DQ[36]||	Data [36]	||1.2-V POD
-|-
-|PIN_P3  	||DDR4A_DQ[37]||	Data [37]	||1.2-V POD
-|-
-|PIN_N1  	||DDR4A_DQ[38]	||	Data [38]||1.2-V POD
-|-
-|PIN_J1  	||DDR4A_DQ[39]	||	Data [39]||1.2-V POD
-|-
-|PIN_N3  	||DDR4A_DQ[40]||	Data [40]	||1.2-V POD
-|-
-|PIN_P5  	||DDR4A_DQ[41]||	Data [41]	||1.2-V POD
-|-
-|PIN_M5  	||DDR4A_DQ[42]||	Data [42]	||1.2-V POD
-|-
-|PIN_R2  	||DDR4A_DQ[43]||	Data [43]	||1.2-V POD
-|-
-|PIN_N4  	||DDR4A_DQ[44]||	Data [44]	||1.2-V POD
-|-
-|PIN_P6  	||DDR4A_DQ[45]||	Data [45]	||1.2-V POD
-|-
-|PIN_L4  	||DDR4A_DQ[46]||	Data [46]	||1.2-V POD
-|-
-|PIN_R3  	||DDR4A_DQ[47]||	Data [47]	||1.2-V POD
-|-
-|PIN_V6  	||DDR4A_DQ[48]||	Data [48]	||1.2-V POD
-|-
-|PIN_T7  	||DDR4A_DQ[49]||	Data [49]	||1.2-V POD
-|-
-|PIN_U5  	||DDR4A_DQ[50]||	Data [50]	||1.2-V POD
-|-
-|PIN_U7  	||DDR4A_DQ[51]||	Data [51]	||1.2-V POD
-|-
-|PIN_T4  	||DDR4A_DQ[52]	||Data [52]	||1.2-V POD
-|-
-|PIN_W6  	||DDR4A_DQ[53]||	Data [53]	||1.2-V POD
-|-
-|PIN_T3  	||DDR4A_DQ[54]	||	Data [54]||1.2-V POD
-|-
-|PIN_U6  	||DDR4A_DQ[55]||	Data [55]	||1.2-V POD
-|-
-|PIN_W8  	||DDR4A_DQ[56]||	Data [56]	||1.2-V POD
-|-
-|PIN_Y12 	||DDR4A_DQ[57]||	Data [57]	||1.2-V POD
-|-
-|PIN_Y11 	||DDR4A_DQ[58]||	Data [58]	||1.2-V POD
-|-
-|PIN_W10 	||DDR4A_DQ[59]||	Data [59]	||1.2-V POD
-|-
-|PIN_Y13 	||DDR4A_DQ[60]||	Data [60]	||1.2-V POD
-|-
-|PIN_Y8  	||DDR4A_DQ[61]	||	Data [61] ||1.2-V POD
-|-
-|PIN_Y10 	||DDR4A_DQ[62]||	Data [62]	||1.2-V POD
-|-
-|PIN_W11 	||DDR4A_DQ[63]||	Data [63]	||1.2-V POD
-|-
-|PIN_V1  	||DDR4A_DQ[64]||	Data [64]	||1.2-V POD
-|-
-|PIN_Y1  	||DDR4A_DQ[65]||	Data [65]	||1.2-V POD
-|-
-|PIN_W3  	||DDR4A_DQ[66]||	Data [66]	||1.2-V POD
-|-
-|PIN_W1  	||DDR4A_DQ[67]||	Data [67]	||1.2-V POD
-|-
-|PIN_Y3  	||DDR4A_DQ[68]||	Data [68]	||1.2-V POD
-|-
-|PIN_W4  	||DDR4A_DQ[69]||	Data [69]	||1.2-V POD
-|-
-|PIN_U1  	||DDR4A_DQ[70]	||	Data [70]||1.2-V POD
-|-
-|PIN_U2  	||DDR4A_DQ[71]||	Data [71]	||1.2-V POD
-|-
-|PIN_AD9 	||DDR4A_DBI_n[0]||	Data Bus Inversion n[0]  ||1.2-V POD
-|-
-|PIN_AJ5 	||DDR4A_DBI_n[1]||	Data Bus Inversion n[1]	||1.2-V POD
-|-
-|PIN_AK2 	||DDR4A_DBI_n[2]||	Data Bus Inversion n[2]	||1.2-V POD
-|-
-|PIN_AG2 	||DDR4A_DBI_n[3]||	Data Bus Inversion n[3]	||1.2-V POD
-|-
-|PIN_L2  	||DDR4A_DBI_n[4]||	Data Bus Inversion n[4]	||1.2-V POD
-|-
-|PIN_L3  	||DDR4A_DBI_n[5]||	Data Bus Inversion n[5]	||1.2-V POD
-|-
-|PIN_U4  	||DDR4A_DBI_n[6]||	Data Bus Inversion n[6]	||1.2-V POD
-|-
-|PIN_V8  	||DDR4A_DBI_n[7]||	Data Bus Inversion n[7]	||1.2-V POD
-|-
-|PIN_V4  	||DDR4A_DBI_n[8]||	Data Bus Inversion n[8]	||1.2-V POD
-|-
- |PIN_AE1	 ||DDR4A_CS_n||	Chip Select	||SSTL-12
-|-
-|PIN_AE3 	||DDR4A_RESET_n	||Chip Reset	||1.2 V
-|-
-|PIN_AC3	 ||DDR4A_ODT||	On Die Termination	||SSTL-12
-|-
- |PIN_AC6	|| DDR4A_PAR||	Command and Address Parity Input 	||SSTL-12
-|-
-|PIN_AC12	||DDR4A_ALERT_n||	Alert	||SSTL-12
-|-
-|PIN_AD1 	||DDR4A_ACT_n||	Activation Command Input	||SSTL-12
-|-
-|PIN_T5  	||DDR4A_EVENT_n||	Chip Temperature Event	||1.2 V
-|-
-|PIN_AD5 	||DDR4A_AC_R[0]||		||SSTL-12
-|-
-|PIN_Y6  	||DDR4A_AC_R[1]||		||SSTL-12
-|-
-|PIN_AC4 	|| DDR4A_C[0]||		||SSTL-12
-|-
-|PIN_AB2 	 ||DDR4A_C[1]||		||SSTL-12
-|-
-|PIN_AA8 	 ||DDR4A_RZQ||		||1.2 V
-|}
-==HDMI==
-The development board provides High Performance HDMI Transmitter via the devices SN75DP159 which incorporates HDMI v1.4b and v2.0a features, including Ultra HD video and HDTV support.
-The SN75DP159 is controlled via a serial I2C bus interface, which is connected to pins on the Arria 10 SoC FPGA.Figure 4-9 shows the connections between the HDMI port and Arria 10 SoC FPGA. The pin assignment associated to HDMI port is listed in Table 4-9 .<br/><br/>
-:::[[File:HDMI-de10-ad.jpg|500px]]
-::::Figure 4-9 Connections between the HDMI port and Arria 10 SoC FPGA
-::::Table 4-9 HDMI port Pin Assignments, Signal Names and Functions
- :{| class="wikitable"
-  |-
-  !<font size="3"><font face="Times New Roman">Signal Name</font></font>!!<font size="3"><font face="Times New Roman">FPGA Pin Number</font></font>!!<font size="3"><font face="Times New Roman">Description</font></font>!!<font size="3"><font face="Times New Roman">I/O Standard</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">HDMI_REFCLK_p</font></font>||<font size="3"><font face="Times New Roman">PIN_Y31</font></font>||<font size="3"><font face="Times New Roman">Video reference Clock</font></font>||<font size="3"><font face="Times New Roman">LVDS</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">HDMI_TX_CLK_p</font></font>||<font size="3"><font face="Times New Roman">PIN_V39</font></font>||<font size="3"><font face="Times New Roman">Video Clock</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">HDMI_TX_D_p[0]</font></font>||<font size="3"><font face="Times New Roman">PIN_U37</font></font>||<font size="3"><font face="Times New Roman">Video Data bus p[0]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">HDMI_TX_D_p[1]</font></font>||<font size="3"><font face="Times New Roman">PIN_T39</font></font>||<font size="3"><font face="Times New Roman">Video Data bus p[1]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |-
-  |<font size="3"><font face="Times New Roman">HDMI_TX_D_p[2]</font></font>||<font size="3"><font face="Times New Roman">PIN_R37</font></font>||<font size="3"><font face="Times New Roman">Video Data bus p[2]</font></font>||<font size="3"><font face="Times New Roman">HSSI DIFFERENTIAL I/O</font></font>
-  |}
-==Display Port==
-The DE10-Advanced board includes a DisplayPort connector. We plan to support DisplayPort both source and sink port on USB Type-C connector：support DisplayPort 1.2a spec and data rate up to 5.4Gbps per lane, 4 lanes in total.
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin No.	!!Description	!!I/O Standard
-|-
-|DP_REFCLK_p	||PIN_AM31||Display reference clock		||LVDS
-|-
-|DP_TX_p[0]	||PIN_AW37||Transmitter data p0		||HSSI DIFFERENTIAL I/O
-|-
-|DP_TX_p[1]	||PIN_AV39||Transmitter data p1		||HSSI DIFFERENTIAL I/O
-|-
-|DP_TX_p[2]	||PIN_AU37||Transmitter data p2		||HSSI DIFFERENTIAL I/O
-|-
-|DP_TX_p[3]	||PIN_AT39||Transmitter data p3		||HSSI DIFFERENTIAL I/O
-|-
-|DP_RX_p[0]	||PIN_AV35||Receiver data p0		||HSSI DIFFERENTIAL I/O
-|-
-|DP_RX_p[1]	||PIN_AT35||Receiver data p1		||HSSI DIFFERENTIAL I/O
-|-
-|DP_RX_p[2]	||PIN_AN33||Receiver data p2		||HSSI DIFFERENTIAL I/O
-|-
-|DP_RX_p[3]	||PIN_AP35||	Receiver data p3	||HSSI DIFFERENTIAL I/O
-|-
-|DP_AUX_p	||PIN_AM22||Display port AUX port ||1.8V
-|}
-=Chapter 5 HPS Fabric Component=
-==User Push-buttons and LEDs==
-Similar to the FPGA, the HPS also has its set of switches, buttons, LEDs, and other interfaces connected exclusively. Users can control these interfaces to monitor the status of HPS.<br/>
-Table 5-1 gives the pin assignment of all the LEDs, switches and push-buttons.<br/>
-:Table 5-1 Pin Assignment of LEDs, Switches and Push-buttons
-:{| class="wikitable"
-  |-
-!Signal Name	!!HPS Pin Number	!!Function	!!I/O Standard
-|-
-|HPS_KEY	||PIN_A29||I/O		||1.8 V
-|-
-|HPS_LED	||PIN_D29||I/O		||1.8 V
-|}
-==Gigabit Ethernet==
-The board supports Gigabit Ethernet transfer by an external Micrel KSZ9031RNX PHY chip and HPS Ethernet MAC function. The KSZ9031RNX chip with integrated 10/100/1000 Mbps Gigabit Ethernet transceiver also supports RGMII MAC interface. Figure 5-1 shows the connections between the HPS, Gigabit Ethernet PHY, and RJ-45 connector. The pin assignment associated with Gigabit Ethernet interface is listed in Table 5-2. More information about the KSZ9031RNX PHY chip and its datasheet, as well as the application notes, is available on the manufacturer’s website.<br/>
-:::[[File:DE10-AD-HPSGET.jpg|700px]]
-::::::::::Figure 5-1 Connections between the HPS and Gigabit Ethernet
-::::::Table 5-2 Pin Assignment of Gigabit Ethernet PHY
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin Number	!!Description	!!I/O Standard
-|-
-|HPS_ENET_GTX_CLK	||PIN_F25||GMII Transmit Clock		||1.8V
-|-
-|HPS_ENET_MDC	||PIN_D24||Management Data Clock Reference		||1.8V
-|-
-|HPS_ENET_MDIO	||PIN_C24||Management Data		||1.8V
-|-
-|HPS_ENET_RX_CLK	||PIN_K22||GMII and MII receive clock		||1.8V
-|-
-|HPS_ENET_RX_DATA[0]	||PIN_H23||GMII and MII receive data[0]		||1.8V
-|-
-|HPS_ENET_RX_DATA[1]	||PIN_J23||GMII and MII receive data[1]		||1.8V
-|-
-|HPS_ENET_RX_DATA[2]	||PIN_F24||GMII and MII receive data[2]		||1.8V
-|-
-|HPS_ENET_RX_DATA[3]	||PIN_G24||GMII and MII receive data[3]		||1.8V
-|-
-|HPS_ENET_RX_DV	||PIN_L22||	GMII and MII receive data valid	||1.8V
-|-
-|HPS_ENET_TX_DATA[0]	||PIN_H24||MII transmit data[0] ||1.8V
-|-
-|HPS_ENET_TX_DATA[1]	||PIN_J24||MII transmit data[1] ||1.8V
-|-
-|HPS_ENET_TX_DATA[2]	||PIN_M22||MII transmit data[2] ||1.8V
-|-
-|HPS_ENET_TX_DATA[3]	||PIN_M21||MII transmit data[3] ||1.8V
-|-
-|HPS_ENET_TX_EN 	||PIN_G25||GMII and MII transmit enable ||1.8V
-|-
-|HPS_ENET_RESET_N	||PIN_H3||Hardware Reset Signal ||1.8V
-|-
-|HPS_ENET_INT_N 	||PIN_G5||Interrupt Open Drain Output||1.8V
-|}
-There are four LEDs, two green LEDs(LEDG) and two yellow LEDs(LEDY), which represent the status of Ethernet PHY (KSZ9031RNX). The LED control signals are connected to the LEDs on the RJ45 connector. The state and definition of LEDG and LEDY are listed in Table 5-3. For instance, the connection from board to Gigabit Ethernet is established once the LEDG lights on.
-:::Table 5-3 State and Definition of LED Mode Pins
-:{| class="wikitable"
-  |-
-! colspan="2" style="text-align: center;" | LED (State)   !!colspan="2" style="text-align: center;" | LED (Definition) !!rowspan="2" |Link /Activity
-|-
-!LEDG	!!LEDY	!!LEDG !!LEDY
-|-
-|H	||H ||OFF	||OFF 	||Link off
-|-
-|L	||H ||ON	||OFF 	||1000 Link / No Activity
-|-
-|Toggle	||H ||Blinking 	||OFF 	||1000 Link / Activity (RX, TX)
-|-
-|H	||L ||OFF    	||ON 	||100 Link / No Activity
-|-
-|H	||Toggle ||OFF 	||Blinking 	||100 Link / Activity (RX, TX)
-|-
-|L	||L ||ON 	||ON 	||10 Link/ No Activity
-|-
-|Toggle	||Toggle ||Blinking 	||Blinking 	||10 Link / Activity (RX, TX)
-|}
-==UART to USB==
-The board has one UART interface connected for communication with the HPS. This interface doesn’t support HW flow control signals. The physical interface is implemented by UART-USB onboard bridge from a FT232R chip to the host with an USB Mini-B connector. More information about the chip is available on the manufacturer’s website, or in the directory \Datasheets\UART TO USB of DE10-Advanced system CD. Figure 5-2 shows the connections between the HPS, FT232R chip, and the USB Mini-B connector. Table 5-4 lists the pin assignment of UART interface connected to the HPS.<br/>
-:::[[File:De10-ad-UART.jpg|600px]]
-::::::Figure 5-2 Connections between the HPS and USB Mini-B connector
-::::Table 5-4 Pin Assignment of UART Interface
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin Number	!!Description	!!I/O Standard
-|-
-|USBFX3_UART_TX	||PIN_AP23||HPS UART Transmitter		||1.8V
-|-
-|USBFX3_UART_RX	||PIN_AU27||HPS UART Receiver		||1.8V
-|}
-==Micro SD Card Socket==
-The board supports Micro SD card interface with x4 data lines. It serves not only an external storage for the HPS, but also an alternative boot option for DE10-Standard board. Figure 5-3 shows signals connected between the HPS and Micro SD card socket. Table 5-5 lists the pin assignment of Micro SD card socket to the HPS.<br/>
-::::[[File:DE10-AD-SD.jpg|600px]]
-::::::::Figure 5-3 Connections between the FPGA and SD card socket
-::::Table 5-5 Pin Assignment of Micro SD Card Socket
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin Number	!!Description	!!I/O Standard
-|-
-|HPS_SD_CLK	||  ||HPS SD Clock		||
-|-
-|HPS_SD_CMD	||  ||HPS SD Command Line		||
-|-
-|HPS_SD_DATA[0]	||  ||HPS SD Data[0]	||
-|-
-|HPS_SD_DATA[1]	||  ||HPS SD Data[1]	||
-|-
-|HPS_SD_DATA[2]	||  ||HPS SD Data[2]	||
-|-
-|HPS_SD_DATA[3]	||  ||HPS SD Data[3]	||
-|}
-==USB OTG==
-The board has one USB 2.0 type-A port with a SMSC USB3320 controller. The SMSC USB3320 device in 32-pin QFN RoHS Compliant package. This device supports UTMI+ Low Pin Interface (ULPI), which communicates with the USB 2.0 controller in HPS. The PHY operates in Host mode by connecting the ID pin of USB3320 to ground. When operating in Host mode, the device is powered by the USB type-A port. Figure 5-4 shows the connections of USB PTG PHY to the HPS. Table 5-6 lists the pin assignment of USB OTG PHY to the HPS.<br/>
-::::[[File:DE10-AD-OTG.jpg|700px]]
-::::::::Figure 5-4 Connections between the HPS and USB OTG PHY
-::::::Table 5-6 Pin Assignment of USB OTG PHY
-:{| class="wikitable"
-  |-
-!Signal Name	!!FPGA Pin Number	!!Description	!!I/O Standard
-|-
-|HPS_USB_CLKOUT	|| PIN_L25 ||	60MHz Reference Clock Output	||1.8V
-|-
-|HPS_USB_DATA[0]	||PIN_K25  ||	HPS USB_DATA[0]	||1.8V
-|-
-|HPS_USB_DATA[1]	||PIN_G26  ||	HPS USB_DATA[1]||1.8V
-|-
-|HPS_USB_DATA[2]	|| PIN_E27 ||	HPS USB_DATA[2]||1.8V
-|-
-|HPS_USB_DATA[3]	||PIN_F27  ||	HPS USB_DATA[3]||1.8V
-|-
-|HPS_USB_DATA[4]	|| PIN_L24 || HPS USB_DATA[4]   ||1.8V
-|-
-|HPS_USB_DATA[5]	||PIN_M24  ||HPS USB_DATA[5]	||1.8V
-|-
-|HPS_USB_DATA[6]	||PIN_K23  ||	HPS USB_DATA[6]||1.8V
-|-
-|HPS_USB_DATA[7]	|| PIN_L23 ||HPS USB_DATA[7]	||1.8V
-|-
-|HPS_USB_DIR	|| PIN_J25 ||Direction of the Data Bus	||1.8V
-|-
-|HPS_USB_NXT	|| PIN_H26 ||Direction of the Data Bus	||1.8V
-|-
-|HPS_USB_STP	|| PIN_M25 || Stop Data Stream on the Bus   ||1.8V
-|-
-|HPS_USB_RESET	||PIN_L3  ||HPS USB PHY Reset	|| 1.8V
-|}

DE10-Advanced User Manual

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Latest revision as of 17:29, 29 August 2018

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