#ifndef __GENERATED_SDRAM_PHY_H #define __GENERATED_SDRAM_PHY_H #include #include #define DFII_CONTROL_SEL 0x01 #define DFII_CONTROL_CKE 0x02 #define DFII_CONTROL_ODT 0x04 #define DFII_CONTROL_RESET_N 0x08 #define DFII_COMMAND_CS 0x01 #define DFII_COMMAND_WE 0x02 #define DFII_COMMAND_CAS 0x04 #define DFII_COMMAND_RAS 0x08 #define DFII_COMMAND_WRDATA 0x10 #define DFII_COMMAND_RDDATA 0x20 #define SDRAM_PHY_USDDRPHY #define SDRAM_PHY_XDR 2 #define SDRAM_PHY_DATABITS 64 #define SDRAM_PHY_PHASES 4 #define SDRAM_PHY_CL 9 #define SDRAM_PHY_CWL 9 #define SDRAM_PHY_CMD_LATENCY 0 #define SDRAM_PHY_RDPHASE 3 #define SDRAM_PHY_WRPHASE 3 #define SDRAM_PHY_WRITE_LEVELING_CAPABLE #define SDRAM_PHY_WRITE_LATENCY_CALIBRATION_CAPABLE #define SDRAM_PHY_READ_LEVELING_CAPABLE #define SDRAM_PHY_MODULES SDRAM_PHY_DATABITS/8 #define SDRAM_PHY_DELAYS 512 #define SDRAM_PHY_BITSLIPS 8 static void cdelay(int i); __attribute__((unused)) static inline void command_p0(int cmd) { sdram_dfii_pi0_command_write(cmd); sdram_dfii_pi0_command_issue_write(1); } __attribute__((unused)) static inline void command_p1(int cmd) { sdram_dfii_pi1_command_write(cmd); sdram_dfii_pi1_command_issue_write(1); } __attribute__((unused)) static inline void command_p2(int cmd) { sdram_dfii_pi2_command_write(cmd); sdram_dfii_pi2_command_issue_write(1); } __attribute__((unused)) static inline void command_p3(int cmd) { sdram_dfii_pi3_command_write(cmd); sdram_dfii_pi3_command_issue_write(1); } #define DFII_PIX_DATA_SIZE CSR_SDRAM_DFII_PI0_WRDATA_SIZE static inline unsigned long sdram_dfii_pix_wrdata_addr(int phase){ switch (phase) { case 0: return CSR_SDRAM_DFII_PI0_WRDATA_ADDR; case 1: return CSR_SDRAM_DFII_PI1_WRDATA_ADDR; case 2: return CSR_SDRAM_DFII_PI2_WRDATA_ADDR; case 3: return CSR_SDRAM_DFII_PI3_WRDATA_ADDR; default: return 0; } } static inline unsigned long sdram_dfii_pix_rddata_addr(int phase){ switch (phase) { case 0: return CSR_SDRAM_DFII_PI0_RDDATA_ADDR; case 1: return CSR_SDRAM_DFII_PI1_RDDATA_ADDR; case 2: return CSR_SDRAM_DFII_PI2_RDDATA_ADDR; case 3: return CSR_SDRAM_DFII_PI3_RDDATA_ADDR; default: return 0; } } #define DDRX_MR_WRLVL_ADDRESS 1 #define DDRX_MR_WRLVL_RESET 769 #define DDRX_MR_WRLVL_BIT 7 static inline void init_sequence(void) { /* Release reset */ sdram_dfii_pi0_address_write(0x0); sdram_dfii_pi0_baddress_write(0); sdram_dfii_control_write(DFII_CONTROL_ODT|DFII_CONTROL_RESET_N); cdelay(50000); /* Bring CKE high */ sdram_dfii_pi0_address_write(0x0); sdram_dfii_pi0_baddress_write(0); sdram_dfii_control_write(DFII_CONTROL_CKE|DFII_CONTROL_ODT|DFII_CONTROL_RESET_N); cdelay(10000); /* Load Mode Register 3 */ sdram_dfii_pi0_address_write(0x0); sdram_dfii_pi0_baddress_write(3); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); /* Load Mode Register 6 */ sdram_dfii_pi0_address_write(0x0); sdram_dfii_pi0_baddress_write(6); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); /* Load Mode Register 5 */ sdram_dfii_pi0_address_write(0x400); sdram_dfii_pi0_baddress_write(5); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); /* Load Mode Register 4 */ sdram_dfii_pi0_address_write(0x0); sdram_dfii_pi0_baddress_write(4); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); /* Load Mode Register 2, CWL=9 */ sdram_dfii_pi0_address_write(0x200); sdram_dfii_pi0_baddress_write(2); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); /* Load Mode Register 1 */ sdram_dfii_pi0_address_write(0x301); sdram_dfii_pi0_baddress_write(1); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); /* Load Mode Register 0, CL=9, BL=8 */ sdram_dfii_pi0_address_write(0x100); sdram_dfii_pi0_baddress_write(0); command_p0(DFII_COMMAND_RAS|DFII_COMMAND_CAS|DFII_COMMAND_WE|DFII_COMMAND_CS); cdelay(200); /* ZQ Calibration */ sdram_dfii_pi0_address_write(0x400); sdram_dfii_pi0_baddress_write(0); command_p0(DFII_COMMAND_WE|DFII_COMMAND_CS); cdelay(200); } #endif