// <i> Indicates whether Digital Phase Locked Loop is enabled or not
// <id> fdpll0_arch_enable
#ifndef CONF_FDPLL0_ENABLE
#define CONF_FDPLL0_ENABLE 1
#endif
// <q> On Demand Control
// <i> Indicates whether On Demand Control is enabled or not
// <id> fdpll0_arch_ondemand
#ifndef CONF_FDPLL0_ONDEMAND
#define CONF_FDPLL0_ONDEMAND 0
#endif
// <q> Run in Standby
// <i> Indicates whether Run in Standby is enabled or not
// <id> fdpll0_arch_runstdby
#ifndef CONF_FDPLL0_RUNSTDBY
#define CONF_FDPLL0_RUNSTDBY 0
#endif
// <o> Loop Divider Ratio Fractional Part <0x0-0x1F>
// <i> Value of LDRFRAC is calculated using Fclk_dpll=Fckr*(LDR+1+LDRFRAC/32) formula as given in datasheet. This value is directly written in to DPLLRATIO register
// <id> fdpll0_ldrfrac
#ifndef CONF_FDPLL0_LDRFRAC
#define CONF_FDPLL0_LDRFRAC 0x1
#endif
// <o> Loop Divider Ratio Integer Part <0x0-0x1FFF>
// <i> Value of LDR is calculated using Fclk_dpll=Fckr*(LDR+1+LDRFRAC/32) formula as given in datasheet. This value is directly written in to DPLLRATIO register
// <id> fdpll0_ldr
#ifndef CONF_FDPLL0_LDR
#define CONF_FDPLL0_LDR 0xe4d
#endif
// <o> Clock Divider <0x0-0x7FF>
// <i> This Clock divider is only for XOSC clock input to DPLL
// <id> fdpll0_clock_div
#ifndef CONF_FDPLL0_DIV
#define CONF_FDPLL0_DIV 0x0
#endif
// <q> DCO Filter Enable
// <i> Indicates whether DCO Filter Enable is enabled or not
// <id> fdpll0_arch_dcoen
#ifndef CONF_FDPLL0_DCOEN
#define CONF_FDPLL0_DCOEN 0
#endif
// <o> Sigma-Delta DCO Filter Selection <0x0-0x7>
// <id> fdpll0_clock_dcofilter
#ifndef CONF_FDPLL0_DCOFILTER
#define CONF_FDPLL0_DCOFILTER 0x0
#endif
// <q> Lock Bypass
// <i> Indicates whether Lock Bypass is enabled or not
// <id> fdpll0_arch_lbypass
#ifndef CONF_FDPLL0_LBYPASS
#define CONF_FDPLL0_LBYPASS 1
#endif
// <o> Lock Time
// <0x0=>No time-out, automatic lock
// <0x4=>The Time-out if no lock within 800 us
// <0x5=>The Time-out if no lock within 900 us
// <0x6=>The Time-out if no lock within 1 ms
// <0x7=>The Time-out if no lock within 11 ms
// <id> fdpll0_arch_ltime
#ifndef CONF_FDPLL0_LTIME
#define CONF_FDPLL0_LTIME 0x0
#endif
// <o> Reference Clock Selection
// <0x0=>GCLK clock reference
// <0x1=>XOSC32K clock reference
// <0x2=>XOSC0 clock reference
// <0x3=>XOSC1 clock reference
// <id> fdpll0_arch_refclk
#ifndef CONF_FDPLL0_REFCLK
#define CONF_FDPLL0_REFCLK 0x1
#endif
// <q> Wake Up Fast
// <i> Indicates whether Wake Up Fast is enabled or not
// <id> fdpll0_arch_wuf
#ifndef CONF_FDPLL0_WUF
#define CONF_FDPLL0_WUF 0
#endif
// <o> Proportional Integral Filter Selection <0x0-0xF>
// <id> fdpll0_arch_filter
#ifndef CONF_FDPLL0_FILTER
#define CONF_FDPLL0_FILTER 0x0
#endif
//</h>
//</e>
// <e> FDPLL1 Configuration
// <i> Indicates whether configuration for FDPLL1 is enabled or not
// <i> Indicates whether Digital Phase Locked Loop is enabled or not
// <id> fdpll1_arch_enable
#ifndef CONF_FDPLL1_ENABLE
#define CONF_FDPLL1_ENABLE 0
#endif
// <q> On Demand Control
// <i> Indicates whether On Demand Control is enabled or not
// <id> fdpll1_arch_ondemand
#ifndef CONF_FDPLL1_ONDEMAND
#define CONF_FDPLL1_ONDEMAND 0
#endif
// <q> Run in Standby
// <i> Indicates whether Run in Standby is enabled or not
// <id> fdpll1_arch_runstdby
#ifndef CONF_FDPLL1_RUNSTDBY
#define CONF_FDPLL1_RUNSTDBY 0
#endif
// <o> Loop Divider Ratio Fractional Part <0x0-0x1F>
// <i> Value of LDRFRAC is calculated using Fclk_dpll=Fckr*(LDR+1+LDRFRAC/32) formula as given in datasheet. This value is directly written in to DPLLRATIO register
// <id> fdpll1_ldrfrac
#ifndef CONF_FDPLL1_LDRFRAC
#define CONF_FDPLL1_LDRFRAC 0xd
#endif
// <o> Loop Divider Ratio Integer Part <0x0-0x1FFF>
// <i> Value of LDR is calculated using Fclk_dpll=Fckr*(LDR+1+LDRFRAC/32) formula as given in datasheet. This value is directly written in to DPLLRATIO register
// <id> fdpll1_ldr
#ifndef CONF_FDPLL1_LDR
#define CONF_FDPLL1_LDR 0x5b7
#endif
// <o> Clock Divider <0x0-0x7FF>
// <i> This Clock divider is only for XOSC clock input to DPLL
// <id> fdpll1_clock_div
#ifndef CONF_FDPLL1_DIV
#define CONF_FDPLL1_DIV 0x0
#endif
// <q> DCO Filter Enable
// <i> Indicates whether DCO Filter Enable is enabled or not
// <id> fdpll1_arch_dcoen
#ifndef CONF_FDPLL1_DCOEN
#define CONF_FDPLL1_DCOEN 0
#endif
// <o> Sigma-Delta DCO Filter Selection <0x0-0x7>
// <id> fdpll1_clock_dcofilter
#ifndef CONF_FDPLL1_DCOFILTER
#define CONF_FDPLL1_DCOFILTER 0x0
#endif
// <q> Lock Bypass
// <i> Indicates whether Lock Bypass is enabled or not
// <id> fdpll1_arch_lbypass
#ifndef CONF_FDPLL1_LBYPASS
#define CONF_FDPLL1_LBYPASS 0
#endif
// <o> Lock Time
// <0x0=>No time-out, automatic lock
// <0x4=>The Time-out if no lock within 800 us
// <0x5=>The Time-out if no lock within 900 us
// <0x6=>The Time-out if no lock within 1 ms
// <0x7=>The Time-out if no lock within 11 ms
// <id> fdpll1_arch_ltime
#ifndef CONF_FDPLL1_LTIME
#define CONF_FDPLL1_LTIME 0x0
#endif
// <o> Reference Clock Selection
// <0x0=>GCLK clock reference
// <0x1=>XOSC32K clock reference
// <0x2=>XOSC0 clock reference
// <0x3=>XOSC1 clock reference
// <id> fdpll1_arch_refclk
#ifndef CONF_FDPLL1_REFCLK
#define CONF_FDPLL1_REFCLK 0x1
#endif
// <q> Wake Up Fast
// <i> Indicates whether Wake Up Fast is enabled or not
// <id> fdpll1_arch_wuf
#ifndef CONF_FDPLL1_WUF
#define CONF_FDPLL1_WUF 0
#endif
// <o> Proportional Integral Filter Selection <0x0-0xF>