Part 4- Planning the SC--> Inventory planning

Question 1

Inventory planning steps

Answer 1

1) Demand calculated
2) How much + when to produce (or purchase)
3) Determine current inventory position (CIP = sku´s ability to satisfy future demand)
4) CIP is adjusted with demand forecast + lead time + safety stock –> Future period inventory (planned orders)
5) Aggregate planning (considering material, manpower, machine constraints etc)

Question 2

CIP

Answer 2

CIP = scheduled receipts (production or purchase orders- includes the quantities that are already planned to produce) + on-hand inventory (already produced and in the warehouse) - open customer orders

Example:

10 bikes produced today + 10 we have in the warehouse - 5 sold and shipped out today = 15 bikes

Question 3

2 general categories of inventory

Answer 3

1) Dependent demand inventory → demand of a product linked to the demand of other products
Example: Tires on a bike

2) Independent demand inventory → inventory requirements for finished goods (ready for the consumer)

Question 4

4 main types of inventory

Answer 4

1) Raw materials and components
2) WIP (Work in progress) → Materials and parts that have been partially transformed but are not yet finished goods
3) Finished goods
4) MRO- Maintenance, repair and operations → office equipments, packing boxes and tools

Question 5

Costs of inventory

Answer 5

1) Holding costs → total from 15-40%
- Capital/ opportunity cost + physical space occupied by the inventory + handling of inventory + pilferage, scrap, deterioration and obsolescence
- huge impact on a business profitability

2) Ordering costs
- Fixed (facility, computer system) + variable (preparing and creating purchase orders, processing payment etc) costs

3) Setup costs
- Fixed + variable costs
- Costs connected with changing production (labour, spare parts, downtime..)

Question 6

Total costs

Answer 6

The target is to minimize total costs when placing inventory orders. That occurs where holding costs intersects with setup costs –> EOQ (economic order quantity)

• assume ordering costs are constant
• only focus on holding and setup costs
• holding costs→ increase with order quantity increased
• setup costs→ decrease with order quantity increased

Question 7

Reorder point (ROP) Models

Answer 7

• When should the company make the orders?
• The point when the company should make the order is called ROP
• If suddenly the manufacturer are out of products the process fully stops which creates big problems
• Workers/employees are redundant for a certain time, no progress ++

Two different models:
- fixed quantity model
- fixed period model

Question 8

The fixed quantity model (ROP)

Answer 8

Always the same quantity

ROP = d x L (the simple model)
d = demand per day
L = the replenishment lead time for a new order (in days)

Example: If the demand is 10 un/day and the replenishment time is 3 days, the ROP will be 30 un.

To reflect reality we can’t assume d and L are constant–> we need to include safety stock to compensate this real variability.

ROP = d x L + SS (via rules of thumb or statistics)

Question 9

Rules of thumb for safety stock calculations

Answer 9

• half lead time (d x L / 2)
• maximum sales - average sales
• statistical ss converted to days

Question 10

Fixed period model (ROP)

Answer 10

• the time is the constant
• inventory is continuously monitored
  ordered each monday/ first day of the month etc - same time always

Example of people using this method: When vendors make routine visits to customers and take orders for their complete line of product - make the order after they have seen the stock of inventory

Question 11

Single period model (ROP)

Answer 11

• for the companies that make just a single order
• used for seasonal products ( make on order and have for the whole season), perishable goods (fresh bread, fruits ++) or one-time items (newspapers
• extra costs to ordering both too much or too little

Question 12

ABC method of inventory planning and control

Answer 12

Based on the Pareto principle, 80/20 rule → fem number of items (the A items) typically generate a large % of sales or profits

A items → the biggest sellers, high volume of sales, few days of supply (20% of the items and account for 80% of the sales)

C items → small amounts sold, demand is more volatile, many days of supply inventory (50% of the items and account for only 5% of the sales)

B items → in the middle (30% of the items and account for 15% of the sales)

Question 13

Realities of ABC classification

Answer 13

→ better to use sales/ costs in dollars than units- the importance is the profit, not the volume
→ it’s not always exactly 80/20- depends on the company, can be difficult to make the classifications
→ an A is not always an A- when a company has different locations the ABC codes may change from one location to another
→ history vs forecast for ABC classification- better to use history

Question 14

Other uses for ABC classification

Answer 14

→ sku rationalization- to decide if products should be discontinued etc
→ quality control- to find out why an item deteriorate from its classification from A down to B

Question 15

Inventory control and accuracy

Answer 15

• companies normally have a software system that keeps perpetual count of the inventory- can be inaccurate due to inadequate procedures, lost paperwork and lack of training
• a complicated task- most companies have to stop the activities
• a physical inventory count is normally done at the end of the year when people are on holiday/ there is a slow production etc
• physical inventory count once per year
  the traditional method

Question 16

Cycle counting

Answer 16

• more used today
• check the inventories continuously
• uses ABC codes to determine when items should be counted and what the target accuracy should be
• A items should be counted more often with very high accuracy targets
• do not have to stop the production
• requires less safety stock
• accuracy issues are corrected earlier than using physical inventory model

Question 17

Key metrics- turnover

Answer 17

Turnover (rotation) = cost of goods sold per year (profit and loss account) / current inventory investment

• a high inventory turnover reflects a faster-moving inventory (lower holding costs), and the other way around
• the number you get is how many times that product has rotated over the year

Example: IF WE HAVE USD 200 MM IN SALES PER YEAR WITH A COST OF GOODS SOLD OF USD 100 MM, AND CURRENTLY HAVE USD 20 MM INVESTED IN FINISHED GOODS INVENTORY, WE TURN OUR INVENTORY 5 TIMES PER YEAR (NEED OF BENCHMARK).

Question 18

Key metrics- periods of supply (POS)

Answer 18

POS (Periods of supply) = the inverse of the turnover

• a target for production and deployment planning
• can be stated in days, weeks or months of supply
• a unit of time

Example: 12 months / 5 (what we got from the turnover example) = 2,4 (we have an average of 2,4 months of supply on hand)