Pareto analysis-simplified
J.Skorkovský, KPH


What is it ?
•tool to specify priorities
•which job have to be done earlier than the others
•which rejects must be solved firstly
•which product gives us the biggest   revenues
•80|20 rule

How to construct Lorenz Curve and Pareto chart
•list of causes (type of rejects) in %
•table where the most frequent cause is always on the left side of the graph
•
•
Reject
Type
Importance
Importance (%)
Accumulative (%)
1
Bad size
10
71%
71 %=71%
2
Bad material
3
21 %
92%=71%+21%
3
Rust
1
8%
100 %=92%+8%

Pareto chart
Lorenz curve
High priorities

Use of PA  in Inventory Management



Statements I.
•ABC analysis divides an inventory into three categories :
–"A items" with very tight control and accurate records
–"B items" with less tightly controlled and good records
–"C items" with the simplest controls possible and minimal records.

Statements II.
•The ABC analysis suggests, that inventories of an organization are not of equal value •The
inventory is grouped into three categories (A, B, and C) in order of their estimated importance.

Example of possible allocation  into categories
•A’ items – 20% of the items accounts for 70% of the annual consumption value of the items. •‘B’
items - 30% of the items accounts for 25% of the annual consumption value of the items. •‘C’ items
- 50% of the items accounts for 5% of the annual consumption value of the items
•
 Beware that 20+30+50=100 and 70+25+5=100 !!

Example of possible categories allocation-graphical representation  (4051 items in the stock)



ABC Distribution
ABC class
Number of items
Total amount required
A
10％
70％
B
20％
20％
C
70％
10％
Total
100％
100％
Minor difference from distribution mentioned before !!

Objective of ABC analysis
•Rationalization of ordering policies
–Equal treatment
–   OR
–Preferential treatment
See next slide

Equal treatment
 Item code
Annual consumption    (value)
Number of orders
Value per order
Average inventory
    1
     60000
      4
15000
7500
    2
       4000
      4
1000
500
    3
       1000
      4
250
125
TOTAL INVENTORY  (EQT)
8125
1. Value per order= Annual consumption/Numer of orders
2. Average inventory = Value per order/2 see next slide which is
taken from EOQ simplified presentation

Carrying cost (will be presented  next slide)
13
•Resource- Taylor- Wikipedia
To verify this relationship, we can specify any number of points values of Q over the entire time
period, t , and divide by the number of points. For example, if Q = 5,000, the six points
designated from 5,000 to 0, as shown in shown figure, are summed and divided by 6:

Preferential  treatment
 Item code
Annual consumption    (value)
Number of orders
Value per order
Average inventory
    1
     60000
      8
7500
3750
    2
       4000
      3
1333
666
    3
       1000
      1
1000
500
TOTAL INVENTORY (PT) =
4916
TOTAL INVENTORY  (EQT)=
8125

Determination of the Reorder Point (ROP)
•ROP=expected demand during lead time + safety stock
20
50=ROP
50-20=30

Determination of the Reorder Point (ROP)
(home study)
•ROP = expected demand during lead time + z* σdLT
•    where  z = number of standard deviations and
•                     σdLT = the standard deviation of lead time demand  and z* σdLT =Safety Stock
•                     aan

Example
(home study)
•The manager of a construction supply house determined knows that demand for sand during lead time
averages is 50 tons.
•The manager knows, that demand during lead time could be described by a normal distribution that
has a mean of 50 tons and a standard deviation of 5 tons
•The manager is willing to accept a stock out risk of no more than 3 percent

Example-data
(home study)
•Expected lead time averages = 50 tons.
•σdLT = 5 tons
•Risk = 3 % max
•Questions :
•
–What value of z (number of standard deviation)is appropriate?
–How much safety stock should be held?
–What reorder point should be used?
–

Example-solution
(home study)
•Service level =1,00-0,03 (risk) =0,97 and from probability tables you will get   z= +1,88

–
–

See next slide with probability table

Probability table



Example-solution
(home study)
•Service level =1,00-0,03 =0,97 and from probability tables we have got : z= +1,88
•Safety stock = z * σdLT  = 1,88 * 5 =9,40  tons
•ROP = expected lead time demand + safety stock = 50 + 9.40 = 59.40 tons
•For z=1 service level =84,13 %
•For z=2 service level= 97,72 %
•For z=3 service level = 99,87% (see six sigma)

–

ABC and VED and service levels
A items should have low level of service level (0,8 or so )
B items should have low level of service level (0,95 or so)
C items should have low level of service level (0,95 to 0,98 or so)
D items should have low level of service level (0,8 or so )
E items should have low level of service level (0,95 or so)
V items should have low level of service level (0,95 to 0,98 or so)

Matrix
Resource : https://www.youtube.com/watch?v=tO5MmOBdkxk
Prof. Arun Kanda (IIT), 2003