-/**
- * Define whether the ramp will use floating point calculation within ramp_evaluate().
- * Otherwise, a less precise fixed point version will be used, which is faster on
- * platforms which do no support floating point operations.
- *
- * \note Floating point operations will be always done within ramp_compute() to
- * precalculate values, so there has to be at least a floating point emulation support.
- */
-#define RAMP_USE_FLOATING_POINT 0
-
-
-#if !RAMP_USE_FLOATING_POINT
-
- /**
- * Number of least-significant bits which are stripped away during ramp evaluation.
- * This setting allows to specify larger ramps at the price of less precision.
- *
- * The maximum ramp size allowed is 2^(24 + RAMP_CLOCK_SHIFT_PRECISION), in clocks.
- * For instance, using RAMP_CLOCK_SHIFT_PRECISION 1, and a 8x prescaler, the maximum
- * length of a ramp is about 6.7 secs. Raising RAMP_CLOCK_SHIFT_PRECISION to 2
- * brings the maximum length to 13.4 secs, at the price of less precision.
- *
- * ramp_compute() will check that the length is below the maximum allowed through
- * a runtime assertion.
- *
- * \note This macro is used only for the fixed-point version of the ramp.
- */
- #define RAMP_CLOCK_SHIFT_PRECISION 2
-#endif
-
-
-///< Negative pulse width for ramp
-#define RAMP_PULSE_WIDTH 50
-
-///< Default ramp
-#define RAMP_DEF_TIME 6000000 ///< microsecs
-#define RAMP_DEF_MAXFREQ 5000 ///< Hz
-#define RAMP_DEF_MINFREQ 200 ///< Hz
-#define RAMP_DEF_POWERRUN 10 ///< 10 deciampere (1 ampere)
-#define RAMP_DEF_POWERIDLE 1 ///< 1 deciampere