Smart control simulators
for a wide range of CNC machines
Open,flexible, adaptable!
High-performance SYMplus™ control simulators for CNC machines
The intelligent control simulators in the SYMplus™ CNC software use a control-neutral interface in which most of the commands and cycles of the real control are exactly simulated.
Input dialogs and context help images are provided for all supported commands and cycles – so you can easily learn how to program the original control and check it using the modern 2D and 3D simulation graphics.
In production, the control simulators of the SYMplus™ CNC software support the manufacturing process by allowing you to post-edit and retest a post-processor generated program if necessary. This is particularly advantageous if the original control is already older, editing at the control is cumbersome and the graphics are not very meaningful.
Control simulators for CNC machines are always offered for a specific control. See below which control simulators are available in SYMplus™ CNC software:
- PAL turning 2 axes
- PAL milling 3 axes
For the cutting machine operators there are optional extensions to 4 axes in turning or 3+2 axes in milling:
- PAL C/Y
- PAL 3+2
For the occupational groups that only require basic CNC knowledge, there is the possibility of didactically reducing the number of commands:
- DIN basic training
SYMplus™ Turning
SYMplus™ Turning supports a large number of controls as standard and is also well equipped for special controls or machines. A detailed overview of all supported controls is enclosed.
Show controllers
Turning simulators are available for the following controls:
- BOSCH CC200T
- EMCOTronic T1
- FAGOR 8055 T
- FANUC 0T (G-Code System B)
- FANUC 0i (G-Code System A)
- FANUC 18i (G-Code System A) (C)
- FANUC 21i (G-Code System B)
- FANUC 31i (G-Code System B) (C)
- GILDEMEISTER EPL1
- GILDEMEISTER EPL2
- GSK 988
- HAAS (C)
- HEIDENHAIN DINPLUS (C)
- HNC-21T
- LUX-TRONIC LTI
- MAHO Graziano CNC 432T
- NUM 1020/1040/1060T
- SINUMERIK 3T
- SINUMERIK 810T/820T
- SINUMERIK 840C
- SINUMERIK 802C (S)
- SINUMERIK 802D (C)
- SINUMERIK 808D
- SINUMERIK 810D/840D (CY)
- TRAUB TX8
- TRAUB TX8 D/E/F (C)
(S) The SINUMERIK 802S/C simulator was supplied as standard up to V6.0
(C) Optionally available with driven tools (C axis) or additionally with Y axis (CY)
(3+2) Optionally available with plane swivel (3+2 axes)
The following simulators support parameter programming:
Turning: FANUC 0i, FANUC 18i, FANUC 31i, GSK 988T, HAAS, SINUMERIK 810D/840D
Milling: FANUC 0i, FANUC 21i, FANUC 31i, GSK 980M, HAAS, HEIDENHAIN iTNC530, SINUMERIK 810D/840D
You don’t know the difference between postprocessor and simulator?
No problem! Here is a detailed explanation on this topic
SYMplus™ Milling
SYMplus™ Milling supports a large number of control systems as standard and is also well equipped for special control systems or machines. A detailed overview of all supported controllers can be found enclosed.
Show controllers
Milling simulators are available for the following controls:
- DECKEL Dialog 3
- DECKEL Dialog 4
- DECKEL Dialog 11
- EMCOtronic M2
- FANUC 0M
- FANUC 0i-MC
- FANUC 21i
- FANUC 31i (3+2)
- GSK 980M
- HAAS
- HEIDENHAIN TNC155/355 (Dialog + DIN)
- HEIDENHAIN TNC310
- HEIDENHAIN TNC320 (Dialog)
- HEIDENHAIN TNC 430 (Dialog + DIN)
- HEIDENHAIN iTNC530 with HIT (3+2)
- HEIDENHAIN MillPlus (G17 + G18)
- HNC-21M
- MAHO CNC 232 (Dialog, G18)
- MAHO CNC 332 (Dialog, G17)
- MAHO CNC 432 (G17 + G18)
- NUM 1020/1040/1060M
- SINUMERIK 3M
- SINUMERIK 810M/820M
- SINUMERIK 840C
- SINUMERIK 802C (S)
- SINUMERIK 802D
- SINUMERIK 808D
- SINUMERIK 810D/840D (3+2)
(S) The SINUMERIK 802S/C simulator was supplied as standard up to V6.0
(C) Optionally available with driven tools (C axis) or additionally with Y axis (CY)
(3+2) Optionally available with plane swivel (3+2 axes)
The following simulators support parameter programming:
Turning: FANUC 0i, FANUC 18i, FANUC 31i, GSK 988T, HAAS, SINUMERIK 810D/840D
Milling: FANUC 0i, FANUC 21i, FANUC 31i, GSK 980M, HAAS, HEIDENHAIN iTNC530, SINUMERIK 810D/840D
You don’t know the difference between postprocessor and simulator?
No problem! Here is a detailed explanation on this topic.