The study is focuses on a parametric cost model to estimate cost at the early stages of prismatic product development by machining process. The initial phase of model development begins with the determination of cost based on Activity-based costing (ABC) method of trough the overhead cost allocation of some product variants. All the resources required in the machining process are grouped into cost centers similar rates in order to determine the cost center (cost center rate). The Resources are derived from financial statements based on costs incurred during the period of time. Cost activity is calculated based on the amount of consumption and tariff cost centers required of each activity. Main activity the machining process, which develop a cost model with its parameters is the cost driver activity (activity cost driver) concerning on the amount of production and batch sizes. Mathematical equation based feature dimension has been created to determine machining process time as one of  the parameters of the model, create a. Feature were classified into 4 (four) groups of slots / pockets, holes, drills and chamfer. They are used as input variables to calculate the machining time. Thus, input parameters into the cost equation are the available information at the design stage, namely: the number of tools, product weight, dimensions (size) and the type of product features.

Bargelis, A. dan rimasauskas, M. (2007). Cost Forecasting Model for Order-Based Sheet Metal Working. Proc. IMechE Vol. 221 Part C: J. Mechanical Engineering Science: 55-65 .

Ben-Arieh, D. dan Qian, L. (2003). Activity-based Coast Management for Design dan Development stage. Int J. Production Economics 83: 169-183.

Ben-Arieh, D. dan Qian, L. (2008). Parametric Cost Estimation Based on Activity-based Costing: A Case Study for Design & Development of Rotational Parts. Int J. Production Economics 83: 169-183.

Hilton, R.W., Maher, M.W. dan Selto, F.H. (2006). Cost Management: Strategies for Business Decisions. 3rd edition. Mc-GrawHill Irwin.

Jung, Y. (2002). Manufacturing Cost Estimation of Machined Parts Based on Manufacturing Features. Journal of Intelligent Manufacturing 13: 227 – 238.

Kaebernick, H., Farmer, L.E. dan Mozar, S. (1996). Concurrent Product and Process Design. The University of New South Wales.

Lapinleimu, I. dan Totterstrom, J. (1999). Modeling of Machining Cost. Tampere University of Technology.

Ou-Yang, C. dan Lin, T.S. (1997). Developing an Integrated Framework

for Feature-based Early Manufacturing Cost Estimation. The Int. Journal of Advanced Manufacturing Technology 13: 618-629.

Rojo, F. J. R. (2007). Cost Estimating Process Improvement within a Manufacturing Environtment. MSc Thesis. School of Applied Science CranField University.

Roy, R. (2003). Cost Engineering: Why, What and How. Cranfield University.

Tjitro, S. F. (2001). E-Technology sebuah fenomena integrasi Informasi Teknologi dengan Product Design and Manufacturing. Jurnal Teknik Mesin Vol.3 No 2: 77 - 84.