###DESCRIPTION The "elink" is a low-latency/high-speed interface for communicating between FPGAs and ASICs (such as Epiphany) that implement the elink protocol. The interface "should" achieve a peak throughput of 8 Gbit/s in FPGAs with 24 available LVDS signal pairs. ###ELINK INTERFACE I/O SIGNALS SIGNAL |DIR| DESCRIPTION ---------------|---|-------------- txo_frame | O | TX Packet framing signal. txo_lclk | O | TX A clock aligned in the center of the data eye txo_data[7:0] | O | TX Dual data rate (DDR) that transmits packet txi_rd_wait | I | TX Push back (input) for read transactions txi_wd_wait | I | TX Push back (input) for write transactions rxi_frame | I | RX Packet framing signal. Rising edge signals new packet. rxi_lclk | I | RX A clock aligned in the center of the data eye rxi_data[7:0] | I | RX Dual data rate (DDR) that transmits packet rxo_rd_wait | O | RX Push back (output) for read transactions rxo_wr_wait | O | RX Push back (output) for write transactions m_axi* | - | AXI master interface s_axi* | - | AXI slave interface hard_reset | I | Reset input clkin | I | Input clock for PLL clkbypass[2:0] | I | Input clocks for bypassing PLL cclk_n/cclk_p | O | Differential clock output for Epiphany chip_resetb | O | Reset for Epiphany colid[3:0] | O | Column coordinate pins for Epiphany rowid[3:0] | O | Row coordinate pins for Epiphany embox_not_empty| O | Mailbox not empty (connect to interrupt line) embox_full | O | Mailbox is full indicator ###BUS INTERFACE The elink has a 64 bit data AXI master and 32-bit data AXI slave interface for connecting to a standard AXI network. ###EMESH PACKET FORMAT The elink was born out of a need to connect multiple Epiphany chips together and uses the eMesh 104 bit atomic packet structure for communication. The eMesh atomic packet consists of the following sub fields. PACKET SUBFIELD | DESCRIPTION ----------------|---------------- access | Indicates a valid packet write | A write transaction. Access & ~write indicates a read. datamode[1:0] | Datasize (00=8b,01=16b,10=32b,11=64b) ctrlmode[3:0] | Various packet modes for the Epiphany chip dstraddr[31:0] | Address for write, read-request, or read-responses data[31:0] | Data for write transaction, return data for read response srcaddr[31:0] | Return address for read-request, upper data for 64 bit write ###PACKET FRAMING The number of bytes to be received is determined by the data of the first “valid” byte (byte0) and the level of the FRAME signal. The data captured on the rising edge of the LCLK is considered to be byte0 if the FRAME control captured at the same cycle is high but was low at the rising edge of the previous LCLK cycle (ie rising edge). The cycle after the last byte of the transaction (byte8 or byte12) will determine if the receiver should go into data streaming mode based on the level of the FRAME control signal. If the FRAME signal is low, the transaction is complete. If the FRAME control signal stays high, the eLink goes into “streaming mode”, meaning that the last byte of the previous transaction (byte8 or byte12) will be followed by byte5 of the new transaction. ###PUSHBACK The WAIT_RD and WAIT_WR signals are used to stall transmission when a receiver is unable to accept more transactions. The receiver will raise its WAIT output signal on the second rising edge of LCLK input following the capturing rising edge of the last transaction byte (byte8 or byte12) but will be ready to accept one more full transaction (byte0 through byte8/byte12). The WAIT signal seen by the transmitter is assumed to be of the “unspecified” phase delay (while still of the LCLK clock period) and therefore has to be sampled with the two-cycle synchronizer. Once synchronized to the transmitter's LCLK clock domain, the WAIT control signals will prevent new transaction from being transmitted. If the transaction is in the middle of the transmission when the synchronized WAIT control goes high, the transmission process is to be completed without interruption. The txo_* interface driven out from the E16G301 uses a divided version of the core cock frequency (RXI_WE_CCLK_{P,N}). The transmit clock is automatically aligned in the middle of the data eye by the eLink on chip transmit logic. The receiver logic assumes the clock is aligned at the center of the receiver data eye. The “wait” signals are used to indicate to the transmit logic that no more transactions can be received because the receiver buffer full. ###ELINK MEMORY MAP The elink has an parameter called 'ELINKID' that can be configured by the module instantiating the elink. REGISTER |ADDRESS |NOTES ----------|---------|-------------------------------------------- ELRESET | 0xE0000 | Soft reset ELTX | 0xE0004 | Elink tranmit config ELRX | 0xE0008 | Elink receiver config ELCLK | 0xE000C | Clock config ELCOREID | 0xE0010 | ID to drive to Epiphany chip ELVERSION | 0xE0014 | Platform version ELDATAIN | 0xE0018 | Direct data from elink receiver ELDATAOUT | 0xE001C | Direct data for elink transmitter ELDEBUG | 0xE0020 | Various debug signals EMBOXLO | 0xE0024 | Lower 32 bits of 64b wide mail box fifo EMBOXHI | 0xE0028 | Upper 32 bits of 64b wide mail box fifo EMMURX | 0xD0000 | Start of receiver MMU lookup table EMMUTX | 0xC0000 | Start of transmit MMU lookup table (tbd) ###ELINK CONFIGURATION REGISTERS REGISTER | DESCRIPTION ---------- | -------------------------------------------------- ELRESET | (elink reset register) [0] | 0: elink is active | 1: elink in reset ---------- |--------------------------------------------------- ELTX | (elink transmit configuration register) [0] | 0: TX disable | 1: TX enable [1] | 0: static address translation | 1: enables MMU based address translation [3:2] | 00: default elink packet transfer mode | 01: forces values from ESYSDATAOUT on output pins | 1x: reserved [7:4] | Transmit control mode for eMesh [8] | AXI slave read timeout enable -----------|---------------------------------------------------- ELRX | (elink receive configuration register) [0] | 0: elink RX disable | 1: elink RX enable [1] | 0: static address translation | 1: enables MMU based address translation [3:2] | 00: default elink packet receive mode | 01: stores input pin data in ESYSDATAIN register | 1x: reserved -----------|--------------------------------------------------- ELCLK | (elink PLL configuration register) [0] | 0:cclk clock disabled | 1:cclk clock enabled [1] | 0:tx_lclk clock disabled | 1:tx_lclk clock enabled [2] | 0: cclk driven from internal PLL | 1: cclk driven from clkbypass[2:0] input [3] | 0: lclk driven from internal PLL | 1: lclk driven from clkbypass[2:0] input [7:4] | 0000: cclk=pllclk/1 | 0001: cclk=pllclk/2 | 0010: cclk=pllclk/4 | 0011: cclk=pllclk/8 | 0100: cclk=pllclk/16 | 0101: cclk=pllclk/32 | 0110: cclk=pllclk/64 | 0111: cclk=pllclk/128 | 1xxx: RESERVED [11:8] | 0000: lclk=pllclk/1 | 0001: lclk=pllclk/2 | 0010: lclk=pllclk/4 | 0011: lclk=pllclk/8 | 0100: lclk=pllclk/16 | 0101: lclk=pllclk/32 | 0110: lclk=pllclk/64 | 0111: lclk=pllclk/128 | 1xxx: RESERVED [15:12] | PLL frequency -----------|------------------------------------------------- ELCOREID | (coordinate ID for Epiphany) [5:0] | Column ID for connected Epiphany chip [11:6] | Row ID for connected Epiphany chip -----------|------------------------------------------------- ELVERSION | (platform and version ID) [7:0] | Platform model number [7:0] | Revision number -----------|------------------------------------------------- EDATAIN | (data on elink input pins) [7:0] | rx_data[7:0] [8] | tx_frame [9] | tx_wait_rd [10] | tx_wait_wr -----------|------------------------------------------------- ELDATAOUT | (data on eLink output pins) [7:0] | tx_data[7:0] [8] | tx_frame [9] | rx_wait_rd [10] | rx_wait_wr -----------|------------------------------------------------- ELDEBUG | (various debug signals from elink) [31] | embox_not_empty [30] | emesh_rx_rd_wait [29] | emesh_rx_wr_wait [28] | esaxi_emrr_rd_en [27] | emrr_full [26] | emrr_progfull [25] | emrr_wr_en [24] | emaxi_emrq_rd_en [23] | emrq_progfull [22] | emrq_wr_en [21] | emaxi_emwr_rd_en [20] | emwr_progfull [19] | emwr_wr_en (rx) [18] | e_tx_rd_wait [17] | e_tx_wr_wait [16] | emrr_rd_en [15] | emaxi_emrr_prog_full [14] | emaxi_emrr_wr_en [13] | emrq_rd_en [12] | esaxi_emrq_prog_full [11] | esaxi_emrq_wr_en [10] | emwr_rd_en [9] | esaxi_emwr_prog_full [8] | esaxi_emwr_wr_en [7] | reserved [6] | sticky emrr_full (rx) [5] | sticky emrq_full (rx) [4] | sticky emwr_full (rx) [3] | sticky emaxi_emrr_full (tx) [2] | sticky esaxi_emrq_full (tx) [1] | sticky esaxi_emwr_full (tx) [0] | sticky embox_full (mailbox) ###INTERNAL STRUCTURE ``` elink - Top level level AXI elink peripheral emaxi - AXI master interface exaxi - AXI slave interface etx - Elink transmit block etx_io - Converts packet to high speed serial etx_protocol - Creates an elink transaction packet etx_arbiter - Selects one of three AXI traffic sources (rd, wr, rr) s_rq_fifo - Read request fifo for slave AXI interface s_wr_fifo - Write request fifo for slave AXI interface m_rr_fifo - Read response fifo for master AXI interface erx - Elink receiver block etx_io - Converts serial packet received to parallel etx_protocol - Converts the elink packet to 104 bit emesh transaction etx_disty - Decodes emesh transaction and sends to AXI interface emmu - Translates the dstaddr of incoming transaction m_rq_fifo - Read request fifo for master AXI interface m_wr_fifo - Write request fifo for master AXI interface s_rr_fifo - Read response fifo for slave AXI interface ecfg - Configurationr register file for elink embox - Mail box (with interrupt output) eclocks - PLL/clock generator ereset - Reset generator