Analyze Cost Calculation

There are a lot of different ways to analyze cost calculations. Give below are more details for some of the different analyses.

Lead Time Cost Analysis

Use this function for analyzing cost build-up over time. The product structure and the lead time, along with the costs associated with the parts and its components, make up the costs shown in the graph. This can be used to improve business and restructure the Bill of Material (BOM) so that large expenses are pushed as forward as possible. Lead time cost can be calculated only for manufactured parts.

Cost-Volume-Profit Analysis

Use this function to analyze the break-even sales point or volume depending on a part's costs. This can be useful when setting the sales price and estimating the sales volume. Cost-Volume-Profit Analysis performance at specific levels such as Part Number, Structure Alternate, Routing Alternate, Site and Cost Set is available.

There are three different analyses: Break-Even Analysis, Sensitivity Analysis and Optimal Price Calculation. You can also calculate the part's Estimated Elasticity and use the elasticity value in the Cost-Volume-Profit Analysis.

Estimate Price Elasticity Analysis

This analysis uses the Delphi methodology to determine the price elasticity of the part.

The formula to calculate estimate price elasticity is as follows.

E = P1 - P2 x V1
P1 V1 - V2

where E = Estimated Elasticity
P1 = Price 1
P2 = Price 2
V1 = Volume 1
V2 = Volume 2

Break-Even Analysis

The break-even analysis can be done in three different ways:

Entering a sales price, given by what sales volume costs are covered
Entering an estimated break-even volume, given by what sales price the costs are covered for this volume
Entering the return on sales (ROS) given the break-even price

Figure 1 - Break Even Analysis

The cost base used in the following examples is variable cost.
If a sales price and fixed cost are entered, this tool calculates the break-even volume as follows:

Fixed Cost/(Unit Price - Variable Cost) = B/E Volume

If a break-even volume and fixed cost are entered, this tool calculates the break-even price as follows:

Fixed Cost + (Variable Cost * Unit Volume)/Unit Volume = B/E Unit Price

If an ROS and a fixed cost are entered, this tool calculates the break-even price and volume as follows:

Variable Cost/[1 - (ROS/100)] = B/E Unit Price

Fixed Cost/[B/E Unit Price (ROS) - Variable Cost] = B/E Volume

Entering return on investment (ROI) is independent of the analysis type.

Price or ROI as analysis type calculates ROI volume as follows:

(Fixed Cost * (ROI/100) + Fixed Cost)/(Price -Variable Cost)

Volume as analysis type calculates ROI price as follows:

((Fixed Cost * (ROI/100) + Fixed Cost)/Volume) + Variable Cost

Entering Safety Margin
Safety volume is always calculated as follows:

Break-Even Volume/[1 - (Safety Margin/100)]

Break-Even volume is calculated as follows:

Safety Volume * [1 - (Safety Margin/100)]

If volume is selected as the analysis type, the volume entered is regarded as safety volume.

Sensitivity Analysis

Use this function to see how price changes affect the volume. A break-even (B/E) analysis must be performed. It shows how the variable cost of the B/E price as a percentage requires changes in the percentage of volume, at a price increase or decrease of 10% or 20%.

Figure 2 - Sensitivity Analysis

Optimal Price Calculation

Use this function to see the result of a break-even analysis in graph form for both price and volume.

Cost Variances Analysis

There are difference ways to analyze variances between two different cost sets for a part, in Part Cost Variance it shows the variances on a high level and in Part Cost Variance it shows the variance for each included cost bucket for the part in the calculations.

In Part Cost Variance you can compare and analyze differences between cost sets:

Total level costs and see the variance factor between those
Total accumulated costs and get the variance factor between those

This analysis can be useful to calculate new costs for the next period and it will be easy to see the differences between old and new costs.
In Part Cost Variance you have three options that you can select to specify the variances for the part and the Cost Set that you have select to compare between:

Show All Cost Buckets Indicator - this option is selected by default

Set Minimum Variance Factor - the buckets shown are those that differ in total or level cost more than the specified minimum variance. The minimum variance is calculated as the ((Left Value – Right Value)/Left Value) > Minimum variance

Set Maximum Variance Factor - the buckets shown are those that differ in total or level cost more than the specified maximum variance. The maximum variance is calculated as the ((Left Value – Right Value)/Left Value) < Maximum Variance
This analyze can be useful to determine the buckets in which differences exist in total costs for a part in different cost sets.

Cost Information per Part Analysis

Use this function to see the cost information for a selected part. You can view cost set information, cost bucket information and cost template information related to the part. To use this the costs must have been calculated for the part.

Graphic Cost Information Analysis

In Part Cost History Graph you can follow how a part's cost have developed over time. The graph shows both the accumulated cost as well as level cost. You can select for period and type of period you will see the graph.

Use Component Cost Build-Up Graph to see how components contribute to the total accumulated cost for the actual part. The component are sorted by how much they contribute to the total accumulated cost, with the most expensive component first.

Analyze Unit Cost per Lot Size

Use this functionality to analyze the unit cost per lot size for a routing alternate, to use this total cost for the part must be calculated and a lot size must be defined. The graph shows the effects of the set up costs, depending on the Lot Size you calculate on. This function does not consider carrying costs.

Analyze Part Routing Cost

Use this function to analyze part routing cost or to simulate cost for a routing alternate. You can analyze routing cost for cost calculation generated:

by part cost, for those records for which the routing cost type is set as Part Cost
by cost build-up per structure/routing, for those records for which the routing cost type is set as Simulated Part Cost
or simulated, for those records for which the routing cost type is set as Simulated Routing Cost

If you simulate cost, only one record will be saved for each part number, cost set and alternate/revision, so if you simulate more than once with different lot sizes only the last simulation will be saved.
There are two tabs with pie chart; one for cost per operation and one for cost per cost type, those gives you a quick answer over the distribution of costs for the routing.

Analyze Cost of Configured Parts

Use this function to analyze cost of a specific configuration for a configured part. To do this the cost calculation must have performed for the configured part you want to analyze.

Commonality Costing

Use this function to evaluate the reusability of components within product structures. You can do this for both manufactured and purchased part costs.

There are two parameters that have to be set:

The product family and product code must be set and calculated within the product structure. The parameters are set in IFS/Inventory Part, and calculated in Update Product Family and Product Code. Product family will give an identity to a family group at a high level. The product code gives an identity on a lower level. The next level is identity by part number.

The cost calculation at all levels:
Cost calculation gives information about manufacturing cost and purchase cost both in cumulated cost, as well as level cost. Parts at the same site will be measured for commonality/uniqueness when it comes to manufacturing cost, purchase cost, and number of parts, concerning both product family and product code identity.

When the the product family and product code is updated, and it comes across a component part that belongs to more than one product structure, the following happens:

If, for example, the product family values of the different parent parts are the same, then nothing happens (the product family of the component part is considered unique, and retains its value, e.g., men's bikes). If, on the other hand, the product family values of the different parent parts are not the same, the product family of the component part is considered common, and is given the value * (asterisk). A person responsible for system changes can optionally have some other value representing common components, but the system default is always asterisk.

The exact same rules also apply to product code.

The calculation excludes master schedule phantom parts, i.e., parts with planning method O or T.

Cost Value Analysis

Use this function to evaluate the Cost/Importance relation for a part structure. The relative importance is produced by assigning feature importance to each components within the structure.

Cost value analysis helps you to determine whether there are any customer requirements related to any function of the product. Functions are related to parts within the part structure. The knowledge of customer requirements makes it easier to conduct product rationalization.