Esempio n. 1
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static void sram_init(void)
{
	/* Enable PMC clock for SMC */
	pmc_enable_periph_clk(ID_SMC);

	/* Complete SMC configuration between SRAM and SMC waveforms. */
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(1)
			| SMC_SETUP_NCS_WR_SETUP(1)
			| SMC_SETUP_NRD_SETUP(1)
			| SMC_SETUP_NCS_RD_SETUP(1));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(6)
			| SMC_PULSE_NCS_WR_PULSE(6)
			| SMC_PULSE_NRD_PULSE(6)
			| SMC_PULSE_NCS_RD_PULSE(6));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(7)
			| SMC_CYCLE_NRD_CYCLE(7));
	smc_set_mode(SMC, 0,
			SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE |
			SMC_MODE_DBW_8_BIT);

	/* Configure LB, enable SRAM access */
	pio_configure_pin(PIN_EBI_NLB, PIN_EBI_NLB_FLAGS);

	/* Pull down LB, enable SRAM access */
	pio_set_pin_low(PIN_EBI_NLB);
}
Esempio n. 2
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static void psram_init(void)
{
	pmc_enable_periph_clk(ID_SMC);
	/* Complete SMC configuration between PSRAM and SMC waveforms. */
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(1)
			| SMC_SETUP_NCS_WR_SETUP(0)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(0));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(3)
			| SMC_PULSE_NCS_WR_PULSE(4)
			| SMC_PULSE_NRD_PULSE(3)
			| SMC_PULSE_NCS_RD_PULSE(5));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(4)
			| SMC_CYCLE_NRD_CYCLE(5));
	smc_set_mode(SMC, 0, SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE

#if SAM3S || SAM4S
			| SMC_MODE_DBW_8_BIT
#elif SAM3U
			| SMC_MODE_DBW_BIT_16
#elif SAM3XA
			| SMC_MODE_DBW_BIT_8
#endif
			);
}
Esempio n. 3
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/**
 * \brief Initialize the LCD.
 */
static void gfx_init(void)
{
	struct ili93xx_opt_t g_ili93xx_display_opt;

	/* Enable peripheral clock. */
	pmc_enable_periph_clk(ID_SMC);

	/* Configure SMC interface for LCD. */
	smc_set_setup_timing(SMC,ILI93XX_LCD_CS,SMC_SETUP_NWE_SETUP(2)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI93XX_LCD_CS , SMC_PULSE_NWE_PULSE(4)
			| SMC_PULSE_NCS_WR_PULSE(4)
			| SMC_PULSE_NRD_PULSE(10)
			| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI93XX_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
			| SMC_CYCLE_NRD_CYCLE(22));
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE);

	/* Initialize display parameter. */
	g_ili93xx_display_opt.ul_width = ILI93XX_LCD_WIDTH;
	g_ili93xx_display_opt.ul_height = ILI93XX_LCD_HEIGHT;
	g_ili93xx_display_opt.foreground_color = COLOR_WHITE;
	g_ili93xx_display_opt.background_color = COLOR_WHITE;

	/* Initialize LCD. */
	if (1 == ili93xx_init(&g_ili93xx_display_opt)) {
		while(1);
	}
}
Esempio n. 4
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/**
 * \brief Configure SMC timing for static memory (LCD)
 */
static void _ILI9488_ConfigureSmc( void )
{
    /* Enable peripheral clock */
    PMC_EnablePeripheral( ID_SMC ) ;

    /* Configure SMC, NCS3 is assigned to LCD */

    SMC->SMC_CS_NUMBER[SMC_EBI_LCD_CS].SMC_SETUP = SMC_SETUP_NWE_SETUP(2)
            | SMC_SETUP_NCS_WR_SETUP(0)
            | SMC_SETUP_NRD_SETUP(0)
            | SMC_SETUP_NCS_RD_SETUP(0);

    SMC->SMC_CS_NUMBER[SMC_EBI_LCD_CS].SMC_PULSE = SMC_PULSE_NWE_PULSE(6)
            | SMC_PULSE_NCS_WR_PULSE(0xA)
            | SMC_PULSE_NRD_PULSE(0xA)
            | SMC_PULSE_NCS_RD_PULSE(0xA);

    SMC->SMC_CS_NUMBER[SMC_EBI_LCD_CS].SMC_CYCLE = SMC_CYCLE_NWE_CYCLE(0xA)
            | SMC_CYCLE_NRD_CYCLE(0xA);

    SMC->SMC_CS_NUMBER[SMC_EBI_LCD_CS].SMC_MODE  = SMC_MODE_READ_MODE
            | SMC_MODE_WRITE_MODE
            | SMC_MODE_DBW_16_BIT
            | SMC_MODE_EXNW_MODE_DISABLED
            | SMC_MODE_TDF_CYCLES(0xF);
}
Esempio n. 5
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/**
 * \brief Configures the EBI for NandFlash access.
 */
extern void BOARD_ConfigureNandFlash( Smc* pSmc )
{
    /* Enable peripheral clock */
    PMC_EnablePeripheral( ID_SMC ) ;

    /* NCS0 is assigned to a NAND Flash (NANDOE and NANWE used for NCS0) */
    // MATRIX->MATRIX_SFR[5] = 1;

    pSmc->SMC_CS_NUMBER[0].SMC_SETUP = 
          SMC_SETUP_NWE_SETUP(0)
        | SMC_SETUP_NCS_WR_SETUP(1)
        | SMC_SETUP_NRD_SETUP(0)
        | SMC_SETUP_NCS_RD_SETUP(1);

    pSmc->SMC_CS_NUMBER[0].SMC_PULSE = 
          SMC_PULSE_NWE_PULSE(2)
        | SMC_PULSE_NCS_WR_PULSE(3)
        | SMC_PULSE_NRD_PULSE(4)
        | SMC_PULSE_NCS_RD_PULSE(4);

    pSmc->SMC_CS_NUMBER[0].SMC_CYCLE = 
          SMC_CYCLE_NWE_CYCLE(4)
        | SMC_CYCLE_NRD_CYCLE(7);

    pSmc->SMC_CS_NUMBER[0].SMC_MODE = 
          SMC_MODE_READ_MODE
        | SMC_MODE_WRITE_MODE;
}
Esempio n. 6
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/** \brief Configures the EBI for NandFlash access at 133Mhz.
 */
void BOARD_ConfigureNandFlash( uint8_t busWidth )
{
#ifdef BOARD_REV_A_EK
    *ADDR_CCFG_EBICSA &= ~(3u << 24);
    *ADDR_CCFG_EBICSA |= (1 << 3);  /* EBI Chip Select 3 is assigned to the Static Memory Controller and the NAND Flash Logic is activated */
    
#endif
#ifdef BOARD_REV_A_VB
    *ADDR_CCFG_EBICSA |= (1 << 3)   /* EBI Chip Select 3 is assigned to the Static Memory Controller and the NAND Flash Logic is activated */
                      | (1 << 24);  /* NAND Flash I/O are connected to D16-D31 in case VDDIOM do not equals VDDNF */
                   // | (1 << 25);  /* DDR Multi-port is enabled, performances are increased when using DDR2 (or LP-DDR) and 8-bit NAND Flash */
#endif
#ifdef BOARD_REV_B_EK
    *ADDR_CCFG_EBICSA |= (1 << 3)   /* EBI Chip Select 3 is assigned to the Static Memory Controller and the NAND Flash Logic is activated */
                      | (1 << 24);  /* NAND Flash I/O are connected to D16-D31 in case VDDIOM do not equals VDDNF */
                   // | (1 << 25);  /* DDR Multi-port is enabled, performances are increased when using DDR2 (or LP-DDR) and 8-bit NAND Flash */
#endif
    SMC->SMC_CS_NUMBER[3].SMC_SETUP = 0
                    | SMC_SETUP_NWE_SETUP(1)
                    | SMC_SETUP_NCS_WR_SETUP(0)
                    | SMC_SETUP_NRD_SETUP(2)
                    | SMC_SETUP_NCS_RD_SETUP(0);

    SMC->SMC_CS_NUMBER[3].SMC_PULSE = 0
                    | SMC_PULSE_NWE_PULSE(3)
                    | SMC_PULSE_NCS_WR_PULSE(5)
                    | SMC_PULSE_NRD_PULSE(4)
                    | SMC_PULSE_NCS_RD_PULSE(6);

    SMC->SMC_CS_NUMBER[3].SMC_CYCLE = 0
                    | SMC_CYCLE_NWE_CYCLE(5)
                    | SMC_CYCLE_NRD_CYCLE(7);
    SMC->SMC_CS_NUMBER[3].SMC_MODE = SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE | SMC_MODE_DBW(busWidth/16) | SMC_MODE_TDF_CYCLES(1);    
}
Esempio n. 7
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/**
 * \brief Configures the EBI for %NorFlash access.
 */
extern void BOARD_ConfigureNorFlash( Smc* pSmc )
{
    /* Enable peripheral clock */
    PMC_EnablePeripheral( ID_SMC ) ;

    /* Configure SMC, NCS0 is assigned to a norflash */
    pSmc->SMC_CS_NUMBER[0].SMC_SETUP = 
          SMC_SETUP_NWE_SETUP(2)
        | SMC_SETUP_NCS_WR_SETUP(0)
        | SMC_SETUP_NRD_SETUP(0)
        | SMC_SETUP_NCS_RD_SETUP(0);

    pSmc->SMC_CS_NUMBER[0].SMC_PULSE = 
          SMC_PULSE_NWE_PULSE(6)
        | SMC_PULSE_NCS_WR_PULSE(0xA)
        | SMC_PULSE_NRD_PULSE(0xA)
        | SMC_PULSE_NCS_RD_PULSE(0xA);

    pSmc->SMC_CS_NUMBER[0].SMC_CYCLE = 
          SMC_CYCLE_NWE_CYCLE(0xA)
        | SMC_CYCLE_NRD_CYCLE(0xA);

    pSmc->SMC_CS_NUMBER[0].SMC_MODE  = 
          SMC_MODE_READ_MODE
        | SMC_MODE_WRITE_MODE
        | SMC_MODE_EXNW_MODE_DISABLED
        | SMC_MODE_TDF_CYCLES(0x1);
}
void gfx_ili9325_init(void)
{
	struct ili9325_opt_t g_ili9325_display_opt;

	/* initialize globals */
	gfx_width = ILI9325_LCD_WIDTH;
	gfx_height = ILI9325_LCD_HEIGHT;

	/* Enable peripheral clock */
	pmc_enable_periph_clk(ID_SMC);

	/* Configure SMC interface for Lcd */
	smc_set_setup_timing(SMC,ILI9325_LCD_CS,SMC_SETUP_NWE_SETUP(2)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI9325_LCD_CS , SMC_PULSE_NWE_PULSE(4)
			| SMC_PULSE_NCS_WR_PULSE(4)
			| SMC_PULSE_NRD_PULSE(10)
			| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI9325_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
			| SMC_CYCLE_NRD_CYCLE(22));
#if !defined(SAM4S)
	smc_set_mode(SMC, ILI9325_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE
			| SMC_MODE_DBW_8_BIT);
#else
	smc_set_mode(SMC, ILI9325_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE);
#endif

	/* Initialize display parameter */
	g_ili9325_display_opt.ul_width= ILI9325_LCD_WIDTH;
	g_ili9325_display_opt.ul_height = ILI9325_LCD_HEIGHT;
	g_ili9325_display_opt.foreground_color= COLOR_BLACK;
	g_ili9325_display_opt.background_color = COLOR_WHITE;

	/* Switch off backlight */
	aat31xx_disable_backlight();

	/* Initialize LCD */
	ili9325_init(&g_ili9325_display_opt);
	ili9325_display_on();
	/* Set backlight level */
	aat31xx_set_backlight(AAT31XX_AVG_BACKLIGHT_LEVEL);

	/* Set clipping area to whole screen initially */
	gfx_set_clipping(0, 0, gfx_width, gfx_height);

	gfx_draw_filled_rect(0, 0, gfx_width, gfx_height,
			GFX_COLOR(0xFF, 0xFF, 0xFF));
}
Esempio n. 9
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/**
 * \brief Configure the SMC for SRAM access.
 *
 * \param cs  Chip select.
 */
static void configure_sram(uint32_t cs)
{
	smc_set_setup_timing(SMC, cs, SMC_SETUP_NWE_SETUP(1)
			| SMC_SETUP_NCS_WR_SETUP(1)
			| SMC_SETUP_NRD_SETUP(1)
			| SMC_SETUP_NCS_RD_SETUP(1));
	smc_set_pulse_timing(SMC, cs, SMC_PULSE_NWE_PULSE(6)
			| SMC_PULSE_NCS_WR_PULSE(6)
			| SMC_PULSE_NRD_PULSE(6)
			| SMC_PULSE_NCS_RD_PULSE(6));
	smc_set_cycle_timing(SMC, cs, SMC_CYCLE_NWE_CYCLE(7)
			| SMC_CYCLE_NRD_CYCLE(7));
	smc_set_mode(SMC, cs, SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE);
}
Esempio n. 10
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void configure_LCD(){
	/** Enable peripheral clock */
	pmc_enable_periph_clk(ID_SMC);

	/** Configure SMC interface for Lcd */
	smc_set_setup_timing(SMC, ILI93XX_LCD_CS, SMC_SETUP_NWE_SETUP(2)
	| SMC_SETUP_NCS_WR_SETUP(2)
	| SMC_SETUP_NRD_SETUP(2)
	| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI93XX_LCD_CS, SMC_PULSE_NWE_PULSE(4)
	| SMC_PULSE_NCS_WR_PULSE(4)
	| SMC_PULSE_NRD_PULSE(10)
	| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI93XX_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
	| SMC_CYCLE_NRD_CYCLE(22));
	#if ((!defined(SAM4S)) && (!defined(SAM4E)))
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
	| SMC_MODE_WRITE_MODE
	| SMC_MODE_DBW_8_BIT);
	#else
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
	| SMC_MODE_WRITE_MODE);
	#endif
	/** Initialize display parameter */
	g_ili93xx_display_opt.ul_width = ILI93XX_LCD_WIDTH;
	g_ili93xx_display_opt.ul_height = ILI93XX_LCD_HEIGHT;
	g_ili93xx_display_opt.foreground_color = COLOR_BLACK;
	g_ili93xx_display_opt.background_color = COLOR_WHITE;

	/** Switch off backlight */
	aat31xx_disable_backlight();

	/** Initialize LCD */
	ili93xx_init(&g_ili93xx_display_opt);

	/** Set backlight level */
	aat31xx_set_backlight(AAT31XX_AVG_BACKLIGHT_LEVEL);

	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(0, 0, ILI93XX_LCD_WIDTH,
	ILI93XX_LCD_HEIGHT);
	/** Turn on LCD */
	ili93xx_display_on();
	ili93xx_set_cursor_position(0, 0);
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_circle(120, 160, 40);
	ili93xx_draw_line(120, 160, 60, 160);
	ili93xx_draw_line(120, 160, 120, 100);
	ili93xx_draw_line(120, 160, 180, 160);
}
Esempio n. 11
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/**
 * \brief Application entry point for smc_psram example.
 *
 * \return Unused (ANSI-C compatibility).
 */
int main(void)
{
	/* Initialize the SAM system */
	sysclk_init();
	board_init();

	configure_console();

	/* Output example information */
	puts(STRING_HEADER);

	/* Enable PMC clock for SMC module */
	puts("Configure PMC to enable the SMC clock.\r");
	pmc_enable_periph_clk(ID_SMC);
	
	/* Configure EBI I/O for PSRAM connection */
	puts("Configure SMC timing and mode.\r");
	
	/* complete SMC configuration between PSRAM and SMC waveforms. */
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(0)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(6)
			| SMC_PULSE_NCS_WR_PULSE(6)
			| SMC_PULSE_NRD_PULSE(6)
			| SMC_PULSE_NCS_RD_PULSE(6));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(8)
			| SMC_CYCLE_NRD_CYCLE(8));
	smc_set_mode(SMC, 0, SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE
			| SMC_MODE_DBW_BIT_16);

	/* Test external PSRAM access */
	puts("Test external PSRAM access. \r");
	uint8_t *ptr = (uint8_t *) PSRAM_BASE_ADDRESS;
	ptr[0] = 0x50;
	ptr[1] = 0x51;
	ptr[2] = 0x52;
	ptr[3] = 0x53;
	if (access_psram_test()) {
		puts("Psram access successful.\r");
	} else {
		puts("Psram access failed.\r");
	}
	
	while (1) {
	}
}
static void psram_init(void)
{
	pmc_enable_periph_clk(ID_SMC);
	/* complete SMC configuration between PSRAM and SMC waveforms. */
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(0)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(6)
			| SMC_PULSE_NCS_WR_PULSE(6)
			| SMC_PULSE_NRD_PULSE(6)
			| SMC_PULSE_NCS_RD_PULSE(6));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(8)
			| SMC_CYCLE_NRD_CYCLE(8));
	smc_set_mode(SMC, 0, SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE
			| SMC_MODE_DBW_BIT_16);
}
Esempio n. 13
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/**
 * \brief An accurate one-to-one comparison is necessary between PSRAM and SMC waveforms for
 *   a complete SMC configuration.
 *  \note The system is running at 48 MHz for the EBI Bus.
 *        Please refer to the "AC Characteristics" section of the customer product datasheet.
 */
extern void BOARD_ConfigurePSRAM( Smc* pSmc )
{
    uint32_t dwTmp ;

    /* Enable peripheral clock */
    PMC_EnablePeripheral( ID_SMC ) ;

    /* Configure SMC, NCS1 is assigned to a external PSRAM */
    /**
     * PSRAM IS66WV51216BLL
     * 55 ns Access time
     * tdoe = 25 ns max
     * SMC1 (timing SAM3S read mode SMC) = 21 ns of setup
     * 21 + 55 = 76 ns => at least 5 cycles at 64 MHz
     * Write pulse width minimum = 45 ns (PSRAM)
     */
    pSmc->SMC_CS_NUMBER[1].SMC_SETUP = 
          SMC_SETUP_NWE_SETUP( 1 )
        | SMC_SETUP_NCS_WR_SETUP( 0 )
        | SMC_SETUP_NRD_SETUP( 2 )
        | SMC_SETUP_NCS_RD_SETUP( 0 ) ;

    pSmc->SMC_CS_NUMBER[1].SMC_PULSE = 
          SMC_PULSE_NWE_PULSE( 3 )
        | SMC_PULSE_NCS_WR_PULSE( 4 )
        | SMC_PULSE_NRD_PULSE( 3 )
        | SMC_PULSE_NCS_RD_PULSE( 5 ) ;

    /* NWE_CYCLE:     The total duration of the write cycle.
       NWE_CYCLE = NWE_SETUP + NWE_PULSE + NWE_HOLD
       = NCS_WR_SETUP + NCS_WR_PULSE + NCS_WR_HOLD
       (tWC) Write Cycle Time min. 70ns
NRD_CYCLE:     The total duration of the read cycle.
NRD_CYCLE = NRD_SETUP + NRD_PULSE + NRD_HOLD
= NCS_RD_SETUP + NCS_RD_PULSE + NCS_RD_HOLD
(tRC) Read Cycle Time min. 70ns. */
    pSmc->SMC_CS_NUMBER[1].SMC_CYCLE = 
          SMC_CYCLE_NWE_CYCLE( 4 )
        | SMC_CYCLE_NRD_CYCLE( 5 ) ;

    dwTmp = SMC->SMC_CS_NUMBER[0].SMC_MODE;
    pSmc->SMC_CS_NUMBER[1].SMC_MODE  = dwTmp
        | SMC_MODE_READ_MODE
        | SMC_MODE_WRITE_MODE;
}
Esempio n. 14
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void
at91_smc_setup(int id, int cs, const struct at91_smc_init *smc)
{
	// Need a generic way to get this address for all SoCs... Assume 9260 for now...
	uint32_t base = AT91SAM9260_SMC_BASE + SMC_CS_OFF(cs);

	WR4HW(base, SMC_SETUP, SMC_SETUP_NCS_RD_SETUP(smc->ncs_rd_setup) |
	      SMC_SETUP_NRD_SETUP(smc->nrd_setup) |
	      SMC_SETUP_NCS_WR_SETUP(smc->ncs_wr_setup) |
	      SMC_SETUP_NWE_SETUP(smc->nwe_setup));
	WR4HW(base, SMC_PULSE, SMC_PULSE_NCS_RD_PULSE(smc->ncs_rd_pulse) |
	      SMC_PULSE_NRD_PULSE(smc->nrd_pulse) |
	      SMC_PULSE_NCS_WR_PULSE(smc->ncs_wr_pulse) |
	      SMC_PULSE_NWE_PULSE(smc->nwe_pulse));
	WR4HW(base, SMC_CYCLE, SMC_CYCLE_NRD_CYCLE(smc->nrd_cycle) |
	      SMC_CYCLE_NWE_CYCLE(smc->nwe_cycle));
	WR4HW(base, SMC_MODE, smc->mode | SMC_MODE_TDF_CYCLES(smc->tdf_cycles));
}
Esempio n. 15
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 */
static void configure_lcd(void) {

	/* Configure SMC interface for Lcd */
	smc_set_setup_timing(SMC,ILI9325_LCD_CS,SMC_SETUP_NWE_SETUP(2)
	| SMC_SETUP_NCS_WR_SETUP(2)
	| SMC_SETUP_NRD_SETUP(2)
	| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI9325_LCD_CS , SMC_PULSE_NWE_PULSE(4)
	| SMC_PULSE_NCS_WR_PULSE(4)
	| SMC_PULSE_NRD_PULSE(10)
	| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI9325_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
	| SMC_CYCLE_NRD_CYCLE(22));
	#if !defined(SAM4S)
	smc_set_mode(SMC, ILI9325_LCD_CS, SMC_MODE_READ_MODE
	| SMC_MODE_WRITE_MODE
	| SMC_MODE_DBW_8_BIT);
	#else
	smc_set_mode(SMC, ILI9325_LCD_CS, SMC_MODE_READ_MODE
	| SMC_MODE_WRITE_MODE);
	#endif
	/* Initialize display parameter */
	g_ili9325_display_opt.ul_width = ILI9325_LCD_WIDTH;
	g_ili9325_display_opt.ul_height = ILI9325_LCD_HEIGHT;
	g_ili9325_display_opt.foreground_color = COLOR_BLACK;
	g_ili9325_display_opt.background_color = COLOR_WHITE;

	/* Switch off backlight */
	//aat31xx_disable_backlight();

	/* Initialize LCD */
	ili9325_init(&g_ili9325_display_opt);

	/* Set backlight level */
	aat31xx_set_backlight(AAT31XX_MAX_BACKLIGHT_LEVEL);

	ili9325_set_foreground_color(COLOR_WHITE);
	ili9325_draw_filled_rectangle(0, 0, ILI9325_LCD_WIDTH, ILI9325_LCD_HEIGHT);

	/* Turn on LCD */
	ili9325_display_on();
static void ext_sram_init(void)
{
	pmc_enable_periph_clk(ID_SMC);
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(1)
			| SMC_SETUP_NCS_WR_SETUP(1)
			| SMC_SETUP_NRD_SETUP(1)
			| SMC_SETUP_NCS_RD_SETUP(1));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(6)
			| SMC_PULSE_NCS_WR_PULSE(6)
			| SMC_PULSE_NRD_PULSE(6)
			| SMC_PULSE_NCS_RD_PULSE(6));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(7)
			| SMC_CYCLE_NRD_CYCLE(7));
	smc_set_mode(SMC, 0,
			SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE |
			SMC_MODE_DBW_8_BIT);
	/* Configure LB, enable SRAM access */
	pio_configure_pin(PIN_EBI_NLB, PIN_EBI_NLB_FLAGS);
	/* Pull down LB, enable sram access */
	pio_set_pin_low(PIN_EBI_NLB);
}
Esempio n. 17
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/**
 * \brief Initializes the LCD controller.
 * Configure SMC to access LCD controller at 64MHz MCK.
 */
extern void LCDD_Initialize( void )
{
    const Pin pPins[] = {BOARD_LCD_PINS};
    Smc *pSmc = SMC;

    /* Enable pins */
    PIO_Configure(pPins, PIO_LISTSIZE(pPins));

    /* Enable peripheral clock */
    PMC_EnablePeripheral( ID_SMC ) ;

    /* EBI SMC Configuration */
    pSmc->SMC_CS_NUMBER[1].SMC_SETUP = SMC_SETUP_NWE_SETUP(2)
                                     | SMC_SETUP_NCS_WR_SETUP(2)
                                     | SMC_SETUP_NRD_SETUP(2)
                                     | SMC_SETUP_NCS_RD_SETUP(2);

    pSmc->SMC_CS_NUMBER[1].SMC_PULSE = SMC_PULSE_NWE_PULSE(4)
                                     | SMC_PULSE_NCS_WR_PULSE(4)
                                     | SMC_PULSE_NRD_PULSE(10)
                                     | SMC_PULSE_NCS_RD_PULSE(10);

    pSmc->SMC_CS_NUMBER[1].SMC_CYCLE = SMC_CYCLE_NWE_CYCLE(10)
                                     | SMC_CYCLE_NRD_CYCLE(22);

    pSmc->SMC_CS_NUMBER[1].SMC_MODE = SMC_MODE_READ_MODE
                                    | SMC_MODE_WRITE_MODE
                                    | SMC_MODE_DBW_8_BIT;

    /* Initialize LCD controller */
    LCD_Initialize() ;

    /* Initialize LCD controller */
    LCD_SetDisplayPortrait( 0 ) ;

    /* Set LCD backlight */
    LCDD_SetBacklight( 2 ) ;
}
Esempio n. 18
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/**
 * \brief Application entry point for smc_lcd example.
 *
 * \return Unused (ANSI-C compatibility).
 */
int main(void)
{
	sysclk_init();
	board_init();
	
	/** Configura os botões, o TC e desabilita o Watchdog Timer. */
	configure_buttons();
	WDT->WDT_MR = WDT_MR_WDDIS;
	configure_tc();

	/** Initialize debug console */
	configure_console();

	/** Enable peripheral clock */
	pmc_enable_periph_clk(ID_SMC);

	/** Configure SMC interface for Lcd */
	smc_set_setup_timing(SMC, ILI93XX_LCD_CS, SMC_SETUP_NWE_SETUP(2)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI93XX_LCD_CS, SMC_PULSE_NWE_PULSE(4)
			| SMC_PULSE_NCS_WR_PULSE(4)
			| SMC_PULSE_NRD_PULSE(10)
			| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI93XX_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
			| SMC_CYCLE_NRD_CYCLE(22));
#if ((!defined(SAM4S)) && (!defined(SAM4E)))
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE
			| SMC_MODE_DBW_8_BIT);
#else
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE);
#endif
	/** Initialize display parameter */
	g_ili93xx_display_opt.ul_width = ILI93XX_LCD_WIDTH;
	g_ili93xx_display_opt.ul_height = ILI93XX_LCD_HEIGHT;
	g_ili93xx_display_opt.foreground_color = COLOR_BLACK;
	g_ili93xx_display_opt.background_color = COLOR_WHITE;

	/** Switch off backlight */
	aat31xx_disable_backlight();

	/** Initialize LCD */
	ili93xx_init(&g_ili93xx_display_opt);

	/** Set backlight level */
	aat31xx_set_backlight(AAT31XX_AVG_BACKLIGHT_LEVEL);

	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(0, 0, ILI93XX_LCD_WIDTH,
			ILI93XX_LCD_HEIGHT);
			
	/** Turn on LCD */
	ili93xx_display_on();
	ili93xx_set_cursor_position(0, 0);

	/** Escreve os nomes no display. */
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(10, 20, (uint8_t *)"Bruna Tavares");
	ili93xx_draw_string(10, 40, (uint8_t *)"Bruno Campos");
	ili93xx_draw_string(10, 60, (uint8_t *)"Keneth Yamada");
	
	/** Desenha linha */
	ili93xx_set_foreground_color(COLOR_BLUEVIOLET);
	ili93xx_draw_line(0, 90, 240, 90);
	
	/** Escreve contador e tempo no display. */
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(10, 110, (uint8_t *)"Contador");
	ili93xx_draw_string(10, 300, (uint8_t *)"Tempo ");

	/** Escreve valores iniciais do contador. */
	ili93xx_draw_string(130, 110, (uint8_t *)"000");
	ili93xx_draw_string(140, 300, (uint8_t *)"00:00");	

	while (1) {
		// Coloca o microcontrolador em modo Sleep aguardando interrupções.
		pmc_sleep(SAM_PM_SMODE_SLEEP_WFI);
	}
}
Esempio n. 19
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/**
 * \brief Application entry point for smc_lcd example.
 *
 * \return Unused (ANSI-C compatibility).
 */
int main(void)
{
	sysclk_init();
	board_init();

	/** Initialize debug console */
	configure_console();

	/** Enable peripheral clock */
	pmc_enable_periph_clk(ID_SMC);

	/** Configure SMC interface for Lcd */
	smc_set_setup_timing(SMC, ILI93XX_LCD_CS, SMC_SETUP_NWE_SETUP(2)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI93XX_LCD_CS, SMC_PULSE_NWE_PULSE(4)
			| SMC_PULSE_NCS_WR_PULSE(4)
			| SMC_PULSE_NRD_PULSE(10)
			| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI93XX_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
			| SMC_CYCLE_NRD_CYCLE(22));
#if ((!defined(SAM4S)) && (!defined(SAM4E)))
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE
			| SMC_MODE_DBW_8_BIT);
#else
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE);
#endif
	/** Initialize display parameter */
	g_ili93xx_display_opt.ul_width = ILI93XX_LCD_WIDTH;
	g_ili93xx_display_opt.ul_height = ILI93XX_LCD_HEIGHT;
	g_ili93xx_display_opt.foreground_color = COLOR_BLACK;
	g_ili93xx_display_opt.background_color = COLOR_WHITE;

	/** Switch off backlight */
	aat31xx_disable_backlight();

	/** Initialize LCD */
	ili93xx_init(&g_ili93xx_display_opt);

	/** Set backlight level */
	aat31xx_set_backlight(AAT31XX_AVG_BACKLIGHT_LEVEL);

	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(0, 0, ILI93XX_LCD_WIDTH,
			ILI93XX_LCD_HEIGHT);
	/** Turn on LCD */
	ili93xx_display_on();
	ili93xx_set_cursor_position(0, 0);

	/** Draw text, image and basic shapes on the LCD */
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(10, 20, (uint8_t *)"ili93xx_lcd example");

	ili93xx_set_foreground_color(COLOR_RED);
	ili93xx_draw_circle(60, 160, 40);
	ili93xx_set_foreground_color(COLOR_GREEN);
	ili93xx_draw_circle(120, 160, 40);
	ili93xx_set_foreground_color(COLOR_BLUE);
	ili93xx_draw_circle(180, 160, 40);

	ili93xx_set_foreground_color(COLOR_VIOLET);
	ili93xx_draw_line(0, 0, 240, 320);

	while (1) {
	}
}
Esempio n. 20
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/*! \brief Main function. Execution starts here.
 */
int main(void)
{
	uint32_t serial_number[4];
	
	// Read Device-ID from SAM3U. Do this before enabling interrupts etc.
	flash_read_unique_id(serial_number, sizeof(serial_number));
		
	configure_console();

	irq_initialize_vectors();
	cpu_irq_enable();

	// Initialize the sleep manager
	sleepmgr_init();
#if !SAMD21 && !SAMR21
	sysclk_init();
	board_init();
#else
	system_init();
#endif

	fpga_program_init();
	tps56520_init();
	
	//Init CDCE906 Chip
	cdce906_init();

	//Convert serial number to ASCII for USB Serial number
	for(unsigned int i = 0; i < 4; i++){
		sprintf(usb_serial_number+(i*8), "%08x", (unsigned int)serial_number[i]);	
	}
	usb_serial_number[32] = 0;
	
	printf("ChipWhisperer-CW305 Online. Firmware build: %s/%s\n", __TIME__, __DATE__);
	printf("Serial number: %s\n", usb_serial_number);
	

	/* Enable SMC */
	pmc_enable_periph_clk(ID_SMC);	
	fpga_pins(true);
	
	/* Configure EBI I/O for PSRAM connection */
	printf("Setting up FPGA Communication\n");
	
	/* complete SMC configuration between PSRAM and SMC waveforms. */
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(0)
	| SMC_SETUP_NCS_WR_SETUP(1)
	| SMC_SETUP_NRD_SETUP(1)
	| SMC_SETUP_NCS_RD_SETUP(1));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(3)
	| SMC_PULSE_NCS_WR_PULSE(1)
	| SMC_PULSE_NRD_PULSE(3)
	| SMC_PULSE_NCS_RD_PULSE(1));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(4)
	| SMC_CYCLE_NRD_CYCLE(4));
	smc_set_mode(SMC, 0, SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE
	| SMC_MODE_DBW_BIT_8);
	
	
	ui_init();

	// Start USB stack to authorize VBus monitoring
	udc_start();

	/* Enable PCLK0 at 96 MHz */	
	genclk_enable_config(GENCLK_PCK_0, GENCLK_PCK_SRC_MCK, GENCLK_PCK_PRES_1);
	
	//Following is 60MHz version
	//genclk_enable_config(GENCLK_PCK_0, GENCLK_PCK_SRC_PLLBCK, GENCLK_PCK_PRES_4);
	
	printf("Event Loop Entered, waiting...\n");	
	
	//Turn off FPGA pins for now, will be enabled in event loop
	fpga_pins(false);
		
	// The main loop manages only the power mode
	// because the USB management is done by interrupt
	while (true) {
		sleepmgr_enter_sleep();
		process_events();
	}
}
Esempio n. 21
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 */
int main(void)
{
	sysclk_init();
	board_init();

	/** Initialize debug console */
	configure_console();
	
	/** Configura o timer */
	configure_tc();
	
	/* Configura os botões */
	configure_buttons();

	/** Enable peripheral clock */
	pmc_enable_periph_clk(ID_SMC);

	/** Configure SMC interface for Lcd */
	smc_set_setup_timing(SMC, ILI93XX_LCD_CS, SMC_SETUP_NWE_SETUP(2)
			| SMC_SETUP_NCS_WR_SETUP(2)
			| SMC_SETUP_NRD_SETUP(2)
			| SMC_SETUP_NCS_RD_SETUP(2));
	smc_set_pulse_timing(SMC, ILI93XX_LCD_CS, SMC_PULSE_NWE_PULSE(4)
			| SMC_PULSE_NCS_WR_PULSE(4)
			| SMC_PULSE_NRD_PULSE(10)
			| SMC_PULSE_NCS_RD_PULSE(10));
	smc_set_cycle_timing(SMC, ILI93XX_LCD_CS, SMC_CYCLE_NWE_CYCLE(10)
			| SMC_CYCLE_NRD_CYCLE(22));
#if ((!defined(SAM4S)) && (!defined(SAM4E)))
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE
			| SMC_MODE_DBW_8_BIT);
#else
	smc_set_mode(SMC, ILI93XX_LCD_CS, SMC_MODE_READ_MODE
			| SMC_MODE_WRITE_MODE);
#endif
	/** Initialize display parameter */
	g_ili93xx_display_opt.ul_width = ILI93XX_LCD_WIDTH;
	g_ili93xx_display_opt.ul_height = ILI93XX_LCD_HEIGHT;
	g_ili93xx_display_opt.foreground_color = COLOR_BLACK;
	g_ili93xx_display_opt.background_color = COLOR_WHITE;

	/** Switch off backlight */
	aat31xx_disable_backlight();

	/** Initialize LCD */
	ili93xx_init(&g_ili93xx_display_opt);

	/** Set backlight level */
	aat31xx_set_backlight(AAT31XX_AVG_BACKLIGHT_LEVEL);

	ili93xx_set_foreground_color(COLOR_WHITE);
	ili93xx_draw_filled_rectangle(0, 0, ILI93XX_LCD_WIDTH,
			ILI93XX_LCD_HEIGHT);
	/** Turn on LCD */
	ili93xx_display_on();
	ili93xx_set_cursor_position(0, 0);

	/** Draw text, image and basic shapes on the LCD */
	ili93xx_set_foreground_color(COLOR_BLACK);
	ili93xx_draw_string(80, 10, (uint8_t *)"13 - LCD");
	ili93xx_draw_string(10, 40, (uint8_t *)"Andre");
	ili93xx_draw_string(10, 60, (uint8_t *)"Thales");
	ili93xx_draw_string(10, 80, (uint8_t *)"Tete");
	ili93xx_set_foreground_color(COLOR_ORANGE);
	ili93xx_draw_filled_rectangle(0, 100, ILI93XX_LCD_WIDTH,105);
	ili93xx_set_foreground_color(COLOR_GREEN);
	ili93xx_draw_filled_rectangle(0, 106, ILI93XX_LCD_WIDTH,111);
	
	while (1) {
		/* Entra em modo sleep */
		pmc_sleep(SAM_PM_SMODE_SLEEP_WFI);
	}
Esempio n. 22
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/*! \brief Main function. Execution starts here.
 */
int main(void)
{
	uint32_t serial_number[4];
	
	// Read Device-ID from SAM3U. Do this before enabling interrupts etc.
	flash_read_unique_id(serial_number, sizeof(serial_number));
		
	configure_console();

	irq_initialize_vectors();
	cpu_irq_enable();

	// Initialize the sleep manager
	sleepmgr_init();
#if !SAMD21 && !SAMR21
	sysclk_init();
	board_init();
#else
	system_init();
#endif

	//Tri-state XPROG pins
	XPROGTarget_DisableTargetPDI();

	//Convert serial number to ASCII for USB Serial number
	for(unsigned int i = 0; i < 4; i++){
		sprintf(usb_serial_number+(i*8), "%08x", (unsigned int)serial_number[i]);	
	}
	usb_serial_number[32] = 0;
	
	printf("ChipWhisperer-Lite Online. Firmware build: %s/%s\n", __TIME__, __DATE__);
	printf("Serial number: %s\n", usb_serial_number);
	

	/* Enable SMC */
	pmc_enable_periph_clk(ID_SMC);	
	gpio_configure_pin(PIN_EBI_DATA_BUS_D0, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D1, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D2, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D3, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D4, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D5, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D6, PIN_EBI_DATA_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_DATA_BUS_D7, PIN_EBI_DATA_BUS_FLAG1);	
	gpio_configure_pin(PIN_EBI_NRD, PIN_EBI_NRD_FLAGS);
	gpio_configure_pin(PIN_EBI_NWE, PIN_EBI_NWE_FLAGS);
	gpio_configure_pin(PIN_EBI_NCS0, PIN_EBI_NCS0_FLAGS);
		
	/* We don't use address mapping so don't enable this */	
	/*
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A1, PIN_EBI_ADDR_BUS_FLAG1);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A2, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A3, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A4, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A5, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A6, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A7, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A8, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A9, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A10, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A11, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A12, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A13, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A14, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A15, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A16, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A17, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A18, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A19, PIN_EBI_ADDR_BUS_FLAG2);
	gpio_configure_pin(PIN_EBI_ADDR_BUS_A20, PIN_EBI_ADDR_BUS_FLAG2);
	*/	
	
	/* Configure EBI I/O for PSRAM connection */
	printf("Setting up FPGA Communication\n");
	
	/* complete SMC configuration between PSRAM and SMC waveforms. */
	smc_set_setup_timing(SMC, 0, SMC_SETUP_NWE_SETUP(0)
	| SMC_SETUP_NCS_WR_SETUP(1)
	| SMC_SETUP_NRD_SETUP(1)
	| SMC_SETUP_NCS_RD_SETUP(1));
	smc_set_pulse_timing(SMC, 0, SMC_PULSE_NWE_PULSE(1)
	| SMC_PULSE_NCS_WR_PULSE(1)
	| SMC_PULSE_NRD_PULSE(3)
	| SMC_PULSE_NCS_RD_PULSE(1));
	smc_set_cycle_timing(SMC, 0, SMC_CYCLE_NWE_CYCLE(2)
	| SMC_CYCLE_NRD_CYCLE(4));
	smc_set_mode(SMC, 0, SMC_MODE_READ_MODE | SMC_MODE_WRITE_MODE
	| SMC_MODE_DBW_BIT_8);
	
	ui_init();

	// Start USB stack to authorize VBus monitoring
	udc_start();

	/* Enable PCLK0 at 96 MHz */	
	genclk_enable_config(GENCLK_PCK_0, GENCLK_PCK_SRC_MCK, GENCLK_PCK_PRES_1);
	
	//Following is 60MHz version
	//genclk_enable_config(GENCLK_PCK_0, GENCLK_PCK_SRC_PLLBCK, GENCLK_PCK_PRES_4);
	
	printf("Event Loop Entered, waiting...\n");
	
	// The main loop manages only the power mode
	// because the USB management is done by interrupt
	while (true) {
		sleepmgr_enter_sleep();
	}
}