ESLTIME

Bulk Data Entry Defines time step selection control for geometric nonlinear response ESL Optimization and Multibody dynamics ESLM optimization.

Format

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10)
ESLTIME SID TLB TUB
RID1 LB1 UB1 TYPE1
RID2 LB2 UB2 TYPE2
RID3 LB3 UB3 TYPE3
etc

Example

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10)
ESLTIME 100
11 -19.9 99.9
12 1
13

Definitions

Field Contents SI Unit Example
SID Set identification number.

(Integer > 0)

RID Identification number of a DRESP1, DRESP2, or DRESP3 Bulk Data Entry.

(Integer > 0)

TLB Lower bound of time.

No default (Real > 0.0, or blank)

TUB Upper bound of time.

No default (Real > 0.0, or blank)

LB# Lower bound on response.

(Real or blank)

UB# Upper bound on response.

(Real or blank)

TYPE# Flag to select the time steps at which the highest or lowest response values or peaks or troughs of the response, occur.
= 1
Select the highest response value
= -1
Select the lowest response value
= 2
Select the response peaks
= -2
Select the response troughs
blank

(Integer)

Comments

  1. ESLTIME should be selected by the Subcase Information command ESLTIME = SID or in the Bulk Data section by the ESLTADD entry. It can only be selected for geometric nonlinear response ESL Optimization.
  2. The SID and RID fields cannot be left blank. Other fields, if blank, will be ignored.
  3. Lower bounds TLB and LB must be smaller than upper bounds TUB and UB, respectively.
  4. The TLB and TUB fields can be used to define the range of time. OptiStruct will then select the most critical time steps in the time range with higher priority for ESL generation (Figure 1). If more time steps are required, then the critical time steps outside the time range will be taken into account.
  5. The LB and UB fields can be used to define the range of a specific response. OptiStruct will then select the time steps with response values in this range for ESL generation (Figure 1).
    Figure 1. Time Step Selection Based on Time and Response Range


  6. If TYPE = 1, time steps which have the highest response values will be selected.
    If TYPE = -1, time steps which have the lowest response values will be selected.
    Figure 2. Example Depicting TYPE=1 and TYPE=-1 Response Selection


  7. If TYPE = 2, time steps at which response peaks occur will be selected.
    If TYPE = -2, time steps at which response troughs occur will be selected.
    Figure 3. Example Depicting TYPE=2 and TYPE=-2 Response Selection


  8. All continuation lines on the ESLTIME entry are ignored in Multibody dynamics ESLM optimization. Only the first line (ESLTIME, SID, TLB, TUB) is considered.
  9. DOPTPRM, ESLSTOL is ignored, if ESLTIME is defined in the model.