You are invited to join INETCO’s VP of Products, Marc Borbas, for a 25-minute complimentary webinar to learn how the advanced correlation and data extraction techniques of BTM tools have helped global companies such as Fidelity National Information Services, Moneris, Transaction Network Services, Inc., and Jack Henry & Associates, Inc. to easily access:
- Transaction response times between applications and network links
- A systems-wide, real-time view into the performance of all front-end and back-end payment system components
- A historical log of every transaction that replaces intrusive application tracing tools
- A consolidated, one-stop view into network, application and transaction performance metrics
The webinar is scheduled for June 23rd at 8:30 am (Pacific Time)
You can register at: https://inetco.webex.com/inetco/j.php?ED=9399623&RG=1&UID=0&RT=NCM0
Additional Insight:
A simple geometry problem…
A circular dartboard has a diameter of 18 inches. The bull’s-eye has a diameter of 3 inches wide. What is the probability that a randomly-thrown dart that hits the dartboard will hit the bull’s eye? (Answer found at the bottom of this post)
Hitting the bull’s eye with BTM
Deciding where to start looking for performance issues that are affecting your online banking, bill payment, credit and debit authorization processes may often feel like you are randomly throwing darts at a dartboard. Can you really afford that level of risk when it comes to customer service reliability?
Banks and processors have focused so much on reducing costs and achieving merger synergies over the past few years that many face the issue of not really knowing what they have technologically, or how to monitor it. There are so many systems, built by different people, managed by different teams. The configuration of the system is so complicated that they can’t track down transaction issues for days.
Business transaction management (BTM) tools significantly increase your odds of success when it comes to troubleshooting application performance and network latencies.
I hope you find this information of interest.
All the best,
Dan
(Answer to geometry question above: 2.78%)