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Håkon Hægland 2024-12-08 22:31:31 +01:00
parent dfbafd9b23
commit 18a03da1a8
1 changed files with 57 additions and 20 deletions
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77
opm/simulators/flow/ReservoirCoupling.hpp
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@ -41,32 +41,69 @@ enum class MessageTag : int {
void custom_error_handler_(MPI_Comm* comm, int* err, const std::string &msg);
void setErrhandler(MPI_Comm comm, bool is_master);
// Utility class for comparing double values representing epoch dates (seconds since
// unix epoch) or elapsed time (seconds since the start of the simulation).
// NOTE: It is important that when comparing against start of a report step or similar, that
// that we do not miss these due to numerical issues. This is because communication between
// master and slave processes are based on these points in time.
// NOTE: Epoch values in this century (2000-2100) lies in the range of [1e9,4e9], and a double variable cannot
// represent such large values with high precision. For example, the date 01-01-2020 is equal
// to 1.5778368e9 seconds and adding 1e-7 seconds to this value will not change the value.
// So microseconds (1e-6) is approximately the smallest time unit we can represent for such a number.
// NOTE: Report steps seems to have a maximum resolution of whole seconds, see stepLength() in
// Schedule.cpp in opm-common, which returns the step length in seconds.
/// \brief Utility class for comparing double values representing epoch dates or elapsed time.
///
/// This class is used to compare double values that represent:
/// - Epoch dates (seconds since the Unix epoch)
/// - Elapsed time (seconds since the start of the simulation)
///
/// \note When comparing against the start of a report step or similar, it is important not to miss
/// these points due to numerical issues. Communication between master and slave processes is based
/// on these specific points in time.
///
/// \note Epoch values in this century (2000-2100) fall within the range [1e9, 4e9]. A double variable
/// cannot represent such large values with high precision. For example, the date 01-01-2020 corresponds
/// to 1.5778368e9 seconds, and adding 1e-7 seconds to this value does not change it. Microseconds (1e-6)
/// are approximately the smallest time units that can be represented accurately for such numbers.
///
/// \note Report steps appear to have a maximum resolution of whole seconds. See the `stepLength()`
/// function in `Schedule.cpp` in the `opm-common` module, which returns the step length in seconds.
struct Seconds {
/// \brief Absolute tolerance used for comparisons.
static constexpr double abstol = 1e-15;
/// \brief Relative tolerance used for comparisons.
static constexpr double reltol = 1e-15;
// We will will use the following expression to determine if two values a and b are equal:
// |a - b| <= tol = abstol + reltol * max(|a|, |b|)
// For example, assume abstol = reltol = 1e-15, then the following holds:
// - If |a| and |b| are below 1, then the absolute tolerance applies.
// - If a and b are above 1, then the relative tolerance applies.
// For example, for dates in the range 01-01-2000 to 01-01-2100, epoch values will be in the range
// [1e9, 4e9]. And we have 1e-15 * 1e9 = 1e-6, so numbers differing below one microsecond will
// be considered equal.
// NOTE: The above is not true for numbers close to zero, but we do not expect to compare such numbers.
/// \brief Determines if two double values are equal within a specified tolerance.
///
/// Two values \a a and \a b are considered equal if:
/// \f[ |a - b| \leq \text{tol} = \text{abstol} + \text{reltol} \times \max(|a|, |b|) \f]
///
/// For example, if \a abstol = \a reltol = 1e-15:
/// - If \a |a| and \a |b| are below 1, the absolute tolerance applies.
/// - If \a a and \a b are above 1, the relative tolerance applies.
///
/// \note For epoch dates between 01-01-2000 and 01-01-2100, epoch values are in the range [1e9, 4e9].
/// Therefore, \f$ 10^{-15} \times 10^9 = 10^{-6} \f$, meaning differences smaller than one microsecond
/// will be considered equal.
///
/// \note This approach is not accurate for numbers close to zero, but such comparisons are not expected.
///
/// \param a First double value.
/// \param b Second double value.
/// \return True if \a a and \a b are considered equal within the tolerance.
static bool compare_eq(double a, double b);
/// \brief Determines if \a a is greater than \a b within the specified tolerance.
///
/// \param a First double value.
/// \param b Second double value.
/// \return True if \a a is greater than \a b.
static bool compare_gt(double a, double b);
/// \brief Determines if \a a is greater than \a b within the specified tolerance.
///
/// \param a First double value.
/// \param b Second double value.
/// \return True if \a a is greater than \a b.
static bool compare_gt_or_eq(double a, double b);
/// \brief Determines if \a a is less than or equal to \a b within the specified tolerance.
///
/// \param a First double value.
/// \param b Second double value.
/// \return True if \a a is less than or equal to \a b.
static bool compare_lt_or_eq(double a, double b);
};