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diff --git a/resources/libraries/python/MLRsearch/measurement_database.py b/resources/libraries/python/MLRsearch/measurement_database.py
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+# Copyright (c) 2023 Cisco and/or its affiliates.
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at:
+#
+#     http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+"""Module defining MeasurementDatabase class."""
+
+from dataclasses import dataclass
+from typing import Dict, Tuple
+
+from .discrete_load import DiscreteLoad
+from .discrete_result import DiscreteResult
+from .load_stats import LoadStats
+from .relevant_bounds import RelevantBounds
+from .target_spec import TargetSpec
+from .trimmed_stat import TrimmedStat
+
+
+@dataclass
+class MeasurementDatabase:
+    """Structure holding measurement results for multiple durations and loads.
+
+    Several utility methods are added, accomplishing tasks useful for MLRsearch.
+
+    While TargetStats can decide when a single load is a lower bound (or upper),
+    it does not deal with loss inversion (higher load with less load).
+
+    This class introduces the concept of relevant bounds.
+    Relevant upper bound is simply the lowest load classified as an upper bound.
+    But relevant lower bound is only chosen from lower bound loads
+    strictly smaller than the relevant upper bound.
+    This way any higher loads with good results are ignored,
+    so relevant bound give conservative estimate of SUT true performance.
+    """
+
+    targets: Tuple[TargetSpec] = None
+    """Targets to track stats for."""
+    load_to_stats: Dict[DiscreteLoad, LoadStats] = None
+    """Mapping from loads to stats."""
+
+    def __post_init__(self) -> None:
+        """Check and sort initial values.
+
+        If no stats yet, initialize empty ones.
+
+        :raises ValueError: If there are no targets.
+        """
+        if not self.targets:
+            raise ValueError(f"Database needs targets: {self.targets!r}")
+        if not self.load_to_stats:
+            self.load_to_stats = {}
+        self._sort()
+
+    def _sort(self) -> None:
+        """Sort keys from low to high load."""
+        self.load_to_stats = dict(sorted(self.load_to_stats.items()))
+
+    def __getitem__(self, key: DiscreteLoad) -> LoadStats:
+        """Allow access to stats as if self was load_to_stats.
+
+        This also accepts LoadStats as key, so callers do not need
+        to care about hashability.
+
+        :param key: The load to get stats for.
+        :type key: DiscreteLoad
+        :returns: Stats for the given load.
+        :rtype LoadStats:
+        """
+        return self.load_to_stats[key.hashable()]
+
+    def add(self, result: DiscreteResult) -> None:
+        """Incorporate given trial measurement result.
+
+        :param result: Measurement result to add to the database.
+        :type result: DiscreteResult
+        """
+        discrete_load = result.discrete_load.hashable()
+        if not discrete_load.is_round:
+            raise ValueError(f"Not round load: {discrete_load!r}")
+        if discrete_load not in self.load_to_stats:
+            self.load_to_stats[discrete_load] = LoadStats.new_empty(
+                load=discrete_load,
+                targets=self.targets,
+            )
+            self._sort()
+        self.load_to_stats[discrete_load].add(result)
+
+    def get_relevant_bounds(self, target: TargetSpec) -> RelevantBounds:
+        """Return None or a valid trimmed stat, for the two relevant bounds.
+
+        A load is valid only if both optimistic and pessimistic estimates agree.
+
+        If some value is not available, None is returned instead.
+        The returned stats are trimmed to the argument target.
+
+        The implementation starts from low loads
+        and the search stops at lowest upper bound,
+        thus conforming to the conservative definition of relevant bounds.
+
+        :param target: Target to classify loads when finding bounds.
+        :type target: TargetSpec
+        :returns: Relevant lower bound, relevant upper bound.
+        :rtype: RelevantBounds
+        """
+        lower_bound, upper_bound = None, None
+        for load_stats in self.load_to_stats.values():
+            opt, pes = load_stats.estimates(target)
+            if opt != pes:
+                continue
+            if not opt:
+                upper_bound = load_stats
+                break
+            lower_bound = load_stats
+        if lower_bound:
+            lower_bound = TrimmedStat.for_target(lower_bound, target)
+        if upper_bound:
+            upper_bound = TrimmedStat.for_target(upper_bound, target)
+        return RelevantBounds(clo=lower_bound, chi=upper_bound)