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3.3.1.4 Scale factors. The most commonly employed ground motion scaling method involves
multiplying all of the acceleration values of the time-acceleration pairs by a scalar value. This timedomain
scaling modifies the amplitude of the accelerations (to approximate changes in source magnitude
and/or distance) without affecting frequency content or phasing. Although not limited by the Provisions,
the scale factors applied to recorded ground motions should be modest (usually falling between 1/3 and
3); if very small or very large scale factors are needed, some aspect of the event that produced the source
motion likely is inconsistent with the maximum considered earthquake being modeled. An identical scale
factor is applied to both components of a given ground motion to avoid unrealistically biasing one
direction of response. Since the response spectra for time-domain scaled ground motions retain their
natural jaggedness, the acceptance criterion compares their average to the target spectrum, without
imposing limits on the scaling of individual ground motions. That means that there is no single set of
scale factors that may be applied to the selected ground motions (as discussed further in Provisions Part 2
Section C16.1.3.2)

Another ground motion scaling method involves transforming the time-acceleration data into the
frequency domain (such as by means of the fast Fourier transform), making adjustments (to match exactly
the target spectrum at multiple, specific frequencies) and transforming back into the time domain. This
method affects amplitude, frequency content and phasing (and tends to increase the total input energy).
This method makes it possible to estimate mean response with fewer ground motions, but may obscure
somewhat the potential variability of response. Use of this method is permitted by the Provisions, but the
same number of records is required as for time-domain scaling. Given the jaggedness of individual
response spectra, the process of spectral matching (which produces smoother spectra) requires scale
factors that can be considerably smaller or larger than those used in time-domain scaling. Since this
method applies numerous scale factors to differing frequencies of each ground motion component in order
to match spectral ordinates, there is no requirement that the two components be scaled identically. As the
spectral ordinates of frequency-domain scaled records may fall below the target spectrum at frequencies other than those used for matching, a second round of (minor) scaling is needed to satisfy the Provisions
requirements.

...but it also allows
choosing sets of accelerograms compatible with the reference spectrum if linearly scaled in
amplitude.