### Nuclear Mass Segment (MASSES)

- Experimental mass excesses compiled by Audi et al.
- Mass excesses calculated within FRDM and HFB models
- Duflo-Zuker96 (FORTRAN code for estimating nuclear masses)
- Abundances
- Ground-state deformations
- Nuclear matter densities
- Q-value calculated using experimental, FRDM, and HFB mass excesses

### Nuclear Levels Segment (LEVELS)

- Discrete levels and decay data
- Plots of cumulative levels
- Discrete levels in GNASH format
- Related data such as completeness of level schemes and derived nuclear
temperature.
- FORTRAN Programs

### Resonance Spacings Segment (RESONANCES)

- Average resonance spacings for s- and d-wave resonances

### Optical Model Segment (OPTICAL)

- Phenomenological optical model potentials
- Code for alpha-particle potentials
- Deformation parameters of collective levels
- Code for retrieving optical model potentials
- Code for microscopic calculation of optical model potential (MOM)
- Utility codes for maintaining optical model segment of RIPL-2
- Cross section systematics (code TOTELA)

### Level Densities Segment (DENSITIES)

Total level densities
- Parameters for BSFG, Gilbert-Cameron, and Generalized SuperFluid Model
- Plot of total level density parameters (a-parameters)
- Plot of total level densities (cf. cumulative levels)
- Microscopic total level densities (HF-BCS)
- Code for microscopic calculation of total level densities
- Constrains on the level schemes ensuring consistency with the HF-BCS level
densities
- Myers-Swiatecki shell corrections

Single-particle levels
- FRDM single-particle levels
- HF-BCS single-particle levels
- Code for retrieving single-particle levels

Partial level densities
- Code for microscopic calculation of p-h state densities
- Code for analytical calculation of p-h level densities

### Gamma-ray Segment (GAMMA)

- Giant Dipole Resonance parameters
- Experimental E1 and M1 strength-functions
- Plots of Giant Dipole Resonance shape
- Code for calculation of gamma-ray strength-functions

### Fission Segment (FISSION)

- Experimental fission barriers
- Fission barriers calculated with ETFSI
- Code for calculation of fission barriers (fit to the Liquid Drop Model)
- Fission level densities calculated within HFB