Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Pirate Desire 4.24

Transparency. Privacy Protection. and Participation. our values. Pirate Desire can do calculations in x / y / t, and it can integrate over time. All Business Plan Calculations will be fully Transparent. It's protecting user's Privacy, by gathering no data. The third thing to know is that it's Participative. We are voting on new ideas to publish. We are Dynamic Applications. We work to empower people. We are Sharing Economy. Follow us to gain.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

Robot4 6.210

Robot4 (tm) is a Robotic Arm Movement program where the arm is moved from a given position to a desired position. The program finds the angles necessary for the desired position. Problem came from NASA. Robot4 is an Inverse Problem example. It wants to solve how to move from starting point 'A' to target 'B'. An improved productivity example do to using Calculus programming. See 'Rob4User.fc' file.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

GHC Timetables EN 18.7.45.00

Penalara GHC is a timetable generator intended for primary schools, high schools, vocational schools and universities. Its main goal is to fit the weekly school timetables taking into account all the necessary conditions in each educational institution. The main feature that sets GHC apart is the calculation engine, which automatically solves any planning problem of teachers, classrooms, class units, subjects, etc.

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