![]() (BNC rack light and mute pedal not included.)Įven in the darkest of situations, the large, easy-to-see display allows hassle-free tuning from far away. Remote mute control is available with standard third-party pedals. The StroboRack supports use of a rear-mounted detachable BNC rack light for patching in gear under low-light conditions. All jack sockets are by Neutrik, guaranteeing optimal connection quality and long-lasting durability. The StroboRack's enclosure is a uniquely cast piece that makes the chassis incredibly strong and impervious to the rigors of the road. User-defined presets allow a user to tie an instrument's Sweetener to a drop/capo setting in order to create a uniquely-named preset for instant recall from the front panel. Along with the popular GTR & BAS presets, the StroboRack features unique presets for acoustic guitar, DADGAD, 12-string guitar, baritone guitar, E9th, C6th & Universal steel guitar, Dobro and resonator guitar, and electric violin, as well as tuning and intonation offsets for Buzz Feiten Tuning System equipped guitars. The StroboRack's tuning library contains a whopping 34 tempered and exclusive Peterson Sweetened tunings (see side bar). It is this superior precision that also allows user-programmed tunings with up to 1/10th cent resolution settings to be achieved. Only this method provides the high level of resolution in a Peterson strobe tuner that allows unprecedented accuracy in tuning to "standard" pitches and permits one to utilize the subtler shades of altered temperaments and Sweeteners found as presets in these tuners. Your eye simply interprets the motion of the pattern as an indication of tuning error relative to the target pitch. ![]() ![]() With Peterson's 1/10-cent accuracy - up to 30 times better than the accuracy of needle/LED tuners - the StroboRack is the most accurate rack tuner on the market today!Īn important advantage of Virtual Strobe Technology is that no "in tune/out of tune" decision is ever made electronically-a process inherently subject to inaccuracy. The VS-R StroboRack features Peterson's now legendary Virtual Strobe tuning technology.
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![]() So we nixed all of them and started looking at new pieces. It’s simple but special, long and the scale was great, but the cushions nor depth would fit our comfort expectations. Green curved sofa: This one I felt was PERFECT stylistically. ![]() I would put the same colored fringe on the bottom, to match the upholstery but it still feels like a risk as I felt my last tufted sofa was too traditional for me (plus would that low back actually back comfortable?) Red tufted sofa: This one is more affordable ($1,600) but I would reupholster it in a color that would be more timeless (adding about $1,500 to the price of it). Plus, it doesn’t look comfortable and we need extreme comfort in this room. It’s so beautiful but again, above our budget (weighing in at $8k). It’s in LA so I could go test it out, but it is incredibly expensive (over $10k) so why go try on a wedding dress you’ll love but can’t afford and then cry about?īlue velvet sofa: I love the curved back of this one that lends itself to the Danish traditional style. This collection is all vintage, and ones that I’ve loved but am not opting for for the following reasons.įloral sofa: This is a statement and one that also looks comfortable and kid-friendly. So while shopping, here is what I’ve been really drawn to, sofa-wise: image and design via o’connor and houleĬlassic Windsor + cool art = I suppose that is something I’ll always love, RIGHT? But what is is how I can bring in that personality without adding even more contrast and clutter. Those people are cool that’s not up for debate. So here are some: image via elle decoration | design by kristin lagerqvist Plus, the fact that we have kids, like “things” and want it to feel minimalist yet interesting. I’ve struggled with marrying the traditional style of the home, this long room in particular and my innate love of midcentury. So today, I’m going to walk you through my thought process on what sofa might be next, if any, and how that would change the room.īut first some inspiration, and to be honest, I haven’t found enough. I’m actually going to take the ones that most of you agreed on and well, experiment with them, but meanwhile, I have been secretly shopping for a new sofa (even before I brought this Article one down here…even though now, I’m wondering if I should just keep it?!). Yesterday, you saw (and commented on, thank you!) my living room update and boy did you have enlightening opinions. ![]() Use of an explicit second-order finite difference upwind scheme for the Iterative algorithm of shape optimization alternates finite elementĪnalysis of the current structure and deformation of the structureīy transport of the level set function. In a fixed computationalĭomain the 2-d structure is parametrized by a level set function. This Scilab code is inspired from the Fortran code used in the work of A gzip tar archive of all these Scilab programs. ![]() Multiple loads case for a medium cantilever.Parameters files for different test cases.A set of various subroutines (functions in Scilab).List of Scilab computer programs to download You can freely download it on the web site Scilab is a free software developed and distributed by INRIA. There are, of course, many more references on the topic! For more details on this topic weĬonception optimale de structures published by Springer Improve the designs of numerous successive configurations without any By ``automatic'' it is meant that these methodsĪnd algorithms can be implemented on a computer which can analyse and It is the mathematical theory which makes possible the ''automatic'' optimization of shapes In the context of solid mechanics it is also called structural optimization. Routines come with absolutely no warranty. Users are free to use this code as far as they acknowledgeĪlthough they have been written and tested with great care, these Scilab Nucleate new holes, as implemented in the work of It features the possiblity of using the notion of topological gradient to The proposed algorithm uses the level set method of S. Only compliance minimization is implemented in the single or multiple Optimization of plane elastic structures. We propose a set of Scilab routines which perform shape and topology Shape and topology optimization by the level set methodĪ 2-d Scilab Code for shape and topology optimization by the level set method Grégoire Allaire, CMAP, Ecole Polytechnique, October 2009 (new release of January 25, 2012) |