[en] CALOR95 is a Monte Carlo code system, written in Fortran 77 that is designed to assist experimentalists in evaluating and analyzing different types of calorimeter systems used in many high-energy physics experiments to determine the energy and direction of incident hadrons, leptons, and photons. This code package contains HETC95, SPECT95, EGS4, MORSE, and other support programs. PSR-0261/MICAP, also available from RSICC for IBM mainframe, can be modified for workstation and substituted for MORSE. In April 1996 CALOR95 replaced CALOR89 in the RSIC code collection. In July 1998 the MORSE code was replaced when it was found that previous versions of MORSE in this system did not yield the correct energy balance because absorbed gamma-ray energies were underestimated. No other modules were changed. CCC-0610/03: 1 - Description of program or function: In July 1998 the MORSE code was replaced when it was found that previous versions of MORSE in the CALOR system did not yield the correct energy balance because absorbed gamma-ray energies were underestimated. No other modules were changed. 2 - Method of solution: HETC95 transports p, n, pi, mu in the energy range from the source-particle energy down to a specified energy cutoff using the Monte Carlo methods to solve the Boltzmann transport equation. SPECT calculates the energy depositions or 'effective energy deposition' associated with the hadronic particles. EGS4 transports the gamma-rays from pi decay and the e from mu decay. MORSE transport the low energy neutrons (<20 MeV), and gamma rays produced during this phase are stored and transported using EGS4 or can be transported by MORSE. 3 - Restrictions on the complexity of the problem: None noted