Dunkin’ Donuts got rid of their fax machines and spreadsheets and automated with Acumen. Find out how the premiere chain of baked goods and coffee opened and synchronized a centralized kitchen that supplied hundreds of its outlets—keeping the kitchen secure, the hundreds of employees clocked in, and the donuts hot on the shelves and ready to serve.
Multi-service providers need highly integrated, user-friendly systems that address their complex business requirements. One client had a remote 24/7 workforce in multiple locations with individualized employee training requirements and certifications. See how Acumen Data Systems solved their challenges.
They have employees working outside in multiple locations, subject to weather and other changing conditions.
Download this case study and see how Acumen Data Systems’ family of software solutions can keep your organization moving, rain or shine, 365 days a year.
Large and complex manufacturers need simple integrated time and attendance and labor scheduling systems.
Download this case study and find out how Acumen Data Systems successfully handles complex mining and manufacturing environments.
Many companies experiences rapid changes in supply and demand. Our time and attendance software keeps our customers productive and profitable—avoiding overstaffing and understaffing.
See how we ensure your workforce is aligned with fluctuating demands.
Here at Acumen, we work with a great guy out of Canada who is focused in the HRIS and employee time and attendance markets: Bruce Anderson. While reading some of the latest employee time and attendance news, I came across an article by Mr. Anderson about employee time and attendance. I thought I'd provide a
Acumen was selected by a well-known North American ball-bearing manufacturing company to deliver a shop floor control solution for many of its locations. This company’s product range includes needle roller bearings, linear solutions, actuation systems and engine components. A roller bearing is a machine element that transmits, with a minimum of friction, a load between