Quantum for

Industrial Insurance

because industrial insurance is too complex; and, the data too exponential for classical computing systems to handle

Classical Computers

use artificial intelligence and machine learning to find patterns and insights buried in vast amounts of existing data

Quantum Computers

can uncover patterns that

we do not see, either because

the data does not exist or

the possibilities are enormous

Do You Know?

What caused the largest loss in insurance history?

larger than any

natural catastrophe

larger than any

hurricane or earthquake

Asbestos

$100 billion usd

Quantum Computing Could Have Prevented the Asbestos Claims

Introducing...

 

Quantum Emerging Risk (Quantum Operational Risk)

USER STEPS

1.) Purchase an Echo. Launch the Quantum Emerging Risk skill.

2.) Tell QER the items in your product's bill of materials; e.g., asbestos.

BEHIND THE SCENES

3.) QER finds journal articles about each item.

4.) QER 'reads' the article and determines if the tone suggests the item is risky[1] or non-risky[0]; e.g., asbestos would have received a 1.

 

 

BEHIND THE SCENES

5.) QER then rates the journal as reputable[1] or not reputable[0].

6.) QER rates the author as reputable[1] or not reputable[0].

BEHIND THE SCENES

7.) QER'  quantum assembly machine code (aka score) is sent to the quantum computer.

8.) The quantum computer 'plays' the score to determines if the item is risky to the business.

FINAL STEPS

11.) Our Python Lambda function forwards the result to QER/Alexa.

12.)Alexa tells the user the result and sends a copy of the report to their phone.