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Variable Name tfp5
Label 5-factor TFP index 1987=1.000
Codebook NBER-CES Manufacturing Industry Database (2009) [SIC]
Concept
Type numeric
Direct Link tfp5

Summary Statistics

vald   23759
invd   109
min   0.045
max   52.76
mean   1.006
stdev   1.035

Full Description

There are two versions of TFP in the NBER-CES Manufacturing Database: 4-factor and 5-factor. The 5- factor version separates out energy from non-energy materials; the 4-factor uses a single materials input (which includes energy). The TFP calculation requires definitions of the cost shares, the factors, the factor changes, and the output changes. The five cost shares (`alpha_i`) vary by industry by year, defined using the variable names in the dataset:

  • (`alpha_1`) Non-production workers: (pay-prodw)/vship [i.e., their pay divided by shipments]
  • (`alpha_2`) Production workers: prodw/vship [i.e., their pay divided by shipments]
  • (`alpha_3`) Energy: energy/vship [i.e., energy expenditure divided by shipments]
  • (`alpha_4`) Materials: (matcost-energy)/vship [i.e., non-energy materials divided by shipments]
  • (`alpha_5`) Capital: 1 - (sum of the above shares) [i.e., the residual]

In calculating TFP growth from one year to the next, we use the average of the two years' cost shares: `bar alpha_{it} = 0.5alpha_{it} + 0.5alpha_{it-1}` The 5 factors (`X_i`) are defined as follows, using the variable names in the dataset:

  • (`X_1`) Non-production workers: (emp-prode) [i.e., the number of non-production workers]
  • (`X_2`) Production workers: prodh [i.e., production worker hours, not employees]
  • (`X_3`) Energy: (energy/pien) [i.e., real energy expenditures]
  • (`X_4`) Materials: ((matcost/pimat) - (energy/pien)) [i.e., real non-energy materials]
  • (`X_5`) Capital: cap [i.e., total capital stock, already in real terms]

The change in factor usage between one year and the next is defined as the change in natural logs, (for example): `dX_{it} = ln(X_{it}) - ln(X_{it-1})`

We also need the change in real output: (Q) Real output: vship/piship

As with factor usage, we express output change in terms of natural logs, hence: `dQ_t = ln(Q_t) - ln(Q_{t-1})`

The change in 5-factor TFP (dTFP5) between this year and last is thus defined as: `dTFP5_t = dQ_t - sum_i(alpha'_{it}dX_{it})`, `i = 1, ..., 5`

Given the series of dTFP5 values, one can then "roll up" these changes to form a TFP index (TFP5), by setting the index equal to 1.0 in some initial year `t` and then growing the index forward by the following equation: `TFP5_{t+1} = exp[ ln(TFP5_t) + (dTFP5_{t+1})]`

The values of 4-factor TFP growth (dTFP4) and the corresponding TFP index (TFP4) are calculated similarly, but using total materials cost spending rather than separating it into energy and non-energy materials.